A fragrance display method and related apparatus
By displaying a fragrance interface and plant images in the vehicle, and using animation to show the growth and changes of the fragrance, the problem of a monotonous fragrance sensory experience for drivers and passengers is solved, realizing a visual fragrance experience and diversified choices, thus improving the user experience.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- YINWANG INTELLIGENT TECHNOLOGIES CO LTD
- Filing Date
- 2025-04-22
- Publication Date
- 2026-07-07
Smart Images

Figure CN120517142B_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of vehicle technology, and in particular to a fragrance display method and related device. Background Technology
[0002] As drivers and passengers increasingly demand a comfortable interior environment, some vehicles are equipped with fragrance systems. Fragrances help remove unpleasant odors, making the air inside the car fresher. Suitable scents can also help relieve stress and fatigue, improving mood and enhancing the driving experience.
[0003] Currently, drivers and passengers generally perceive fragrances through their sense of smell, resulting in a relatively limited sensory experience. The sensory experience of fragrances for drivers and passengers needs to be improved. Summary of the Invention
[0004] This application provides a fragrance display method and related device to present fragrance in a visual manner, enabling drivers and passengers to perceive fragrance visually and enhancing their sensory experience of fragrance.
[0005] Firstly, this application provides a fragrance display method. This method can be applied to a vehicle, for example, executed by the vehicle itself, or executed by a module within the vehicle (such as a processing device or a component within the processing device), where the module may include software and / or hardware modules. In other words, when the method is executed by a processing device within the vehicle or a component within the processing device (such as a chip or module), it can still be considered as the method being applied to a vehicle. In some cases, the processing device includes a central processing unit (CPU), a microcontroller unit (MCU), etc. For example, the processing device is a domain controller (DC), an electronic control unit (ECU), a vehicle integrated / integration unit (VIU), etc., where the domain controller includes a driving domain controller, such as a mobile data center (MDC), etc. For ease of description, the following description uses the processing device as the executing entity of this method; in actual implementation, the executing entity of this method can have other names.
[0006] The fragrance display method includes: a processing device receiving a fragrance activation input, and in response to the fragrance activation input, displaying a fragrance interface and displaying a first fragrance screen in the fragrance interface. The first fragrance screen includes a cabin screen and first screen content corresponding to the first fragrance. The cabin screen represents the vehicle's cabin, and the first screen content is displayed in the cabin screen, including a first plant.
[0007] The fragrance activation input can be used to trigger the activation of a fragrance, the display of the fragrance interface, or the display of a fragrance image. The fragrance interface refers to the interface used to display fragrance-related content. This content may include, but is not limited to, fragrance images, fragrance information (such as remaining amount, concentration, and cycle time), and fragrance-related controls. The first fragrance image can be understood as the visual representation of the first fragrance, used to visually present the first fragrance.
[0008] The first fragrance display may include a cabin view and first-screen content. The cabin view can be a view of the interior space of the vehicle. For example, the cabin view may include, but is not limited to, at least one seat in the vehicle (e.g., the driver's seat and the front passenger seat), the steering wheel, the central control screen, and the armrest. The first-screen content refers to the content corresponding to the first fragrance, or it can be understood as content associated with the first fragrance, or it can be understood as content that helps the user better perceive or immerse themselves in the first fragrance.
[0009] Specifically, the first image content may include a first plant, which can also be understood as an image of the first plant. The first plant refers to the plant (or plant group) corresponding to the first fragrance, or it can be understood as a plant associated with the first fragrance, or it can be understood as a plant used to represent the first fragrance. For example, the first plant can be a plant that emits a scent that is the same as or similar to the fragrance of the first fragrance. Optionally, the plant in this application may include, but is not limited to, flowers, grasses, trees, and wood.
[0010] The first scene can be displayed in the cockpit view, or more specifically, the first plant can be displayed in the cockpit view. This visually presents the fragrance of the first scent spreading throughout the cockpit interior, helping users experience an immersive feeling.
[0011] Optionally, the cockpit view can be a static view. The content of the first view can be static (e.g., the first plant is stationary) or dynamic (e.g., the first plant is swaying). Correspondingly, the first fragrance view can be either static or dynamic. This application does not impose any limitations on this.
[0012] By employing the methods described above, the processing device presents the fragrance as plant images, which helps improve the visualization of the fragrance, enhances the user's visual perception of the fragrance, and thus improves the user's sensory experience of the fragrance. Furthermore, displaying plant images in the cockpit screen helps enhance the user's sense of presence, further improving the user experience.
[0013] In one possible implementation of the first aspect, the processing device displays a first motion effect in the cockpit screen before displaying the content of the first screen, the first motion effect being presented in the manner of the growth of a first plant.
[0014] The first animation is used to depict the gradual growth of the first plant. The screen before the first animation begins can be a cockpit screen (excluding the content of the first screen), and the screen after the first animation ends can be a first fragrance screen (including the content of the first screen). The content of the first screen can also be understood as the screen of the first plant after the first animation ends, or as the screen of the first plant that has fully grown.
[0015] Through the above implementation method, before displaying the content of the first screen, the processing device displays the animation of the first plant gradually growing in the cockpit screen. Through the animation of the first plant gradually growing, a natural transition is achieved from the cockpit screen (excluding the content of the first screen) to the first fragrance screen (including the content of the first screen). This can improve the visualization effect of the fragrance and enhance the user's visual experience.
[0016] In another possible implementation of the first aspect, the processing device, in response to a fragrance activation input, displays a fragrance interface, the fragrance interface including a first fragrance control and a cockpit screen. The processing device receives and responds to a first input to the first fragrance control, displaying first screen content on the cockpit screen.
[0017] The first fragrance control refers to the control corresponding to the first fragrance, which can be used to trigger the activation of the first fragrance, or to trigger the display of the first fragrance screen, or to trigger the display of the first screen content corresponding to the first fragrance. The first input refers to the input to the first fragrance control; for example, the first input may include the triggering operation of the first fragrance control.
[0018] Through the above implementation method, the processing device displays the cabin screen and a first fragrance control on the fragrance interface. The user can initiate a first input to the first fragrance control as needed. The processing device receives and responds to the first input, displaying the corresponding first screen content for the first fragrance on the cabin screen. This allows for the display of a fragrance screen that meets the user's needs, improving the user experience.
[0019] In another possible implementation of the first aspect, the processing device activates the first fragrance after receiving the fragrance activation input.
[0020] In one possible implementation, a fragrance activation input is used to trigger the activation of a first fragrance, and the processing device can activate the first fragrance upon receiving the fragrance activation input. Optionally, the fragrance activation input includes a voice command for activating the first fragrance. For example, a user initiates the fragrance activation input by uttering the voice command "Activate the first fragrance," and the processing device receives and responds to the fragrance activation input, determines that the fragrance to be activated is the first fragrance, and activates the first fragrance.
[0021] In another possible implementation, the first input is used to trigger the activation of the first fragrance, and the processing device can activate the first fragrance upon receiving the first input. Optionally, the first input includes a triggering operation on the first fragrance control. For example, a user initiates the first input by triggering the first fragrance control on the fragrance interface, and the processing device receives and responds to the first input, determines that the fragrance to be activated is the first fragrance, and activates the first fragrance.
[0022] Optionally, the processing device may activate the first fragrance while displaying the content of the first screen.
[0023] Alternatively, the processing device may activate the first fragrance while displaying the first motion effect.
[0024] Through the above implementation method, after receiving the fragrance activation input, the processing device can not only display the first fragrance screen, but also activate the first fragrance. This allows the release of the fragrance scent and the presentation of the fragrance screen to complement each other, enhancing the user's sensory experience of the fragrance.
[0025] In another possible implementation of the first aspect, the fragrance interface further includes a second fragrance control. The processing device receives and responds to a second input to the second fragrance control, displaying a second fragrance screen in the fragrance interface. The second fragrance screen includes a cabin view and second screen content corresponding to the second fragrance, displayed in the cabin view, and the second screen content includes a second plant. The second fragrance control differs from the first fragrance control, and the second fragrance screen differs from the first fragrance screen.
[0026] The second fragrance control refers to the control corresponding to the second fragrance, which can be used to trigger the activation of the second fragrance, or to trigger the display of the second fragrance screen, or to trigger the display of the second screen content corresponding to the second fragrance. The second input refers to input to the second fragrance control; for example, the second input may include triggering the second fragrance control.
[0027] The second fragrance visual can be understood as the visual representation of the second fragrance, used to visually present the second fragrance. The second fragrance visual can include cabin views and second-view content. Second-view content refers to the visual content corresponding to the second fragrance, or it can be understood as visual content related to the second fragrance, or visual content that helps users better perceive or immerse themselves in the second fragrance.
[0028] Specifically, the second image content can include a second plant, which can also be understood as an image of the second plant. The second plant refers to the plant (or plant group) corresponding to the second fragrance, or it can be understood as a plant associated with the second fragrance, or it can be understood as a plant used to represent the second fragrance. For example, the second plant can be a plant that emits a scent that is the same as or similar to the fragrance of the second fragrance.
[0029] The second visual element can be displayed in the cockpit view, or in other words, the second plant can be displayed in the cockpit view. This visually presents the diffusion of the second fragrance into the cockpit interior, helping users experience a more immersive feeling.
[0030] Optionally, the cockpit view can be a static view. The second view content can be static (e.g., the second plant is stationary) or dynamic (e.g., the second plant is swaying). Correspondingly, the second fragrance view can be static or dynamic. This application does not impose any limitations on this.
[0031] In this application, the second fragrance differs from the first fragrance; correspondingly, the second fragrance control differs from the first fragrance control, the second plant differs from the first plant, the content of the second screen differs from the content of the first screen, and the second fragrance screen differs from the first fragrance screen. Optionally, the cockpit screen in the second fragrance screen is the same as the cockpit screen in the first fragrance screen. The difference between the second fragrance screen and the first fragrance screen can be understood as the second screen content in the second fragrance screen being different from the first screen content in the first fragrance screen.
[0032] Through the above implementation method, the processing device displays various fragrance controls on the fragrance interface, with different fragrance controls corresponding to different fragrances, allowing users to select or switch fragrances according to their needs. This helps to meet users' diverse fragrance needs and enhances the user experience.
[0033] In another possible implementation of the first aspect, during the transition from the first screen content to the second screen content, the processing device displays a second motion effect and a third motion effect on the cockpit screen. The second motion effect is presented as the first plant gradually disappears, and the third motion effect is presented as the second plant grows.
[0034] The second motion effect is used to depict the process of the first plant gradually disappearing. The scene before the second motion effect begins can be the first fragrance scene (including the content of the first scene), and the scene after the second motion effect ends can be the cockpit scene (excluding the content of the first scene). The scene after the second motion effect ends can also be understood as the scene where the first plant (or the content of the first scene) completely disappears.
[0035] The third motion effect is used to depict the gradual growth of the second plant. The screen before the third motion effect begins can be the screen after the second motion effect ends (i.e., the cockpit screen, excluding the content of the second screen), and the screen after the third motion effect ends can be the second fragrance screen (including the content of the second screen). The content of the second screen can also be understood as the screen of the second plant after the third motion effect ends, or as the screen of the fully grown second plant.
[0036] By combining the second and third animation effects mentioned above, a transition from the first fragrance scene to the second fragrance scene can be achieved. Since the cabin scene in the second fragrance scene can be the same as the cabin scene in the first fragrance scene, the transition from the first fragrance scene to the second fragrance scene can also be understood as a transition from the content of the first scene to the content of the second scene.
[0037] Through the above implementation method, during the process of switching from the content of the first screen to the content of the second screen, the processing device sequentially displays the animation effects of the first plant gradually disappearing and the second plant gradually growing in the cockpit screen. By combining the animation effects of the first plant gradually disappearing and the animation effects of the second plant gradually growing, a natural transition from the first fragrance screen (including the content of the first screen) to the second fragrance screen (including the content of the second screen) can be achieved. This can improve the visualization effect of the fragrance and enhance the user's visual experience.
[0038] In another possible implementation of the first aspect, the processing device displays first remaining information in the fragrance interface, the first remaining information indicating the remaining amount of the first fragrance. When the remaining amount of the first fragrance is the first remaining amount, the first plant in the first screen content is displayed in a first manner. When the remaining amount of the first fragrance is the second remaining amount, the first plant in the first screen content is displayed in a second manner. The first remaining amount and the second remaining amount are different, and the first manner and the second manner are different.
[0039] The way the first plant is displayed in the first scene can be related to the remaining amount of the first fragrance. Different amounts of fragrance can correspond to different plant display methods. The first method refers to the plant display method corresponding to the first remaining amount, and the second method refers to the plant display method corresponding to the second remaining amount. If the first and second remaining amounts are different, the first method and the second method can also be different.
[0040] Through the above implementation method, the processing device can distinguish and display plant images under different fragrance residue levels, which can further refine and enrich the visualization effect of the fragrance and enhance the user's visual experience.
[0041] In yet another possible implementation of the first aspect, the height at which the first plant is displayed in the first manner is different from the height at which the first plant is displayed in the second manner.
[0042] In other words, the height of the first plant in the first scene is related to the remaining amount of the first fragrance; different amounts of fragrance can correspond to different plant heights. Here, height refers to the plant's growth height.
[0043] Through the above implementation method, the plant height is related to the fragrance residue, and the processing device can distinguish and display the plant height under different fragrance residues, which can further refine and enrich the visualization effect of the fragrance and enhance the user's visual experience.
[0044] In another possible implementation of the first aspect, if the first margin is greater than the second margin, then the height of the first plant when displayed in the first manner is higher than the height of the first plant when displayed in the second manner. Alternatively, if the first margin is less than the second margin, then the height of the first plant when displayed in the first manner is lower than the height of the first plant when displayed in the second manner.
[0045] In other words, the height of the first plant in the first scene is positively correlated with the remaining amount of the first fragrance. For example, the greater the remaining amount of the first fragrance, the taller the first plant will be. Conversely, the smaller the remaining amount of the first fragrance, the shorter the first plant will be.
[0046] Through the above implementation method, the plant height is positively correlated with the residual fragrance. The processing device can distinguish and display the plant height under different residual fragrance levels, which can further refine and enrich the visualization effect of the fragrance and enhance the user's visual experience.
[0047] In another possible implementation of the first aspect, when the first margin is greater than the second margin, during the process of the first plant switching from being displayed in the first mode to being displayed in the second mode, the processing device displays a fourth motion effect in the cockpit screen, the fourth motion effect being presented in a manner in which the height of the first plant gradually decreases.
[0048] The fourth animation effect depicts the gradual decrease in the height of the first plant. The screen before the fourth animation effect begins is designated as First Fragrance Screen #1, where the first plant is displayed in the first mode at its first height. The screen after the second animation effect ends is designated as First Fragrance Screen #2, where the first plant is displayed in the second mode at its second height, which is less than the first height. The process of the first plant switching from the first mode to the second mode can also be understood as the transition from First Fragrance Screen #1 to First Fragrance Screen #2. The transition from First Fragrance Screen #1 to First Fragrance Screen #2 is a dynamic process, achieved through the animation effect of the first plant's gradually decreasing height, creating a natural transition from First Fragrance Screen #1 to First Fragrance Screen #2.
[0049] In another possible implementation of the first aspect, when the first margin is less than the second margin, during the process of switching the first plant from being displayed in the first mode to being displayed in the second mode, the processing device displays a fifth motion effect in the cockpit screen, the fifth motion effect being presented in a manner in which the height of the first plant gradually increases.
[0050] The fifth animation effect depicts the gradual increase in the height of the first plant. The scene before the fifth animation effect begins is designated as First Fragrance Scene #3, where the first plant is displayed in the first mode, at its first height. The scene after the second animation effect ends is also designated as First Fragrance Scene #3, where the first plant is displayed in the second mode, at its second height, which is greater than the first height. The transition from displaying the first plant in the first mode to displaying it in the second mode can also be understood as the transition from First Fragrance Scene #3 to First Fragrance Scene #4. The transition from First Fragrance Scene #3 to First Fragrance Scene #4 is a dynamic process, achieved through the animation of the first plant's gradually increasing height, creating a natural transition from First Fragrance Scene #3 to First Fragrance Scene #4.
[0051] Through the above implementation method, during the process of switching the display of the first plant from the first mode to the second mode, the processing device displays a dynamic effect of the gradual change in the height of the first plant on the cockpit screen, realizing a natural transition between different fragrance screens (where the height of the first plant is different), which can improve the visualization effect of the fragrance and enhance the user's visual experience.
[0052] In another possible implementation of the first aspect, the fragrance interface includes a concentration control. The processing device displays first concentration information in the fragrance interface, the first concentration information indicating the concentration of a first fragrance. The processing device receives and responds to a third input to the concentration control, adjusting the concentration of the first fragrance from a first concentration to a second concentration.
[0053] The concentration control can be used to adjust the fragrance concentration, such as increasing or decreasing it. The third input refers to input to the concentration control that triggers the adjustment of the fragrance concentration. For example, the third input may include a trigger action on the concentration control.
[0054] The way the first plant is displayed in the first screen can be related to the concentration of the first fragrance; different fragrance concentrations can correspond to different plant display methods. The third method refers to the plant display method corresponding to the first concentration, and the fourth method refers to the plant display method corresponding to the second concentration. If the first and second concentrations are different, the third and fourth methods can also be different.
[0055] Through the above implementation method, the processing device displays a concentration control on the fragrance interface. Users can initiate a third input to the concentration control as needed. The processing device receives and responds to this third input, adjusting the fragrance concentration accordingly. This satisfies users' needs for fragrance concentration and enhances the user experience.
[0056] In another possible implementation of the first aspect, when the concentration of the first fragrance is a first concentration, the first plant in the first screen content is displayed in a third manner. When the concentration of the first fragrance is a second concentration, the first plant in the first screen content is displayed in a fourth manner. The first concentration is different from the second concentration, and the third manner is different from the fourth manner.
[0057] Through the above implementation method, the processing device can distinguish and display plant images under different fragrance concentrations, which can further refine and enrich the visualization effect of fragrance and enhance the user's visual experience.
[0058] In another possible implementation of the first aspect, the degree of lushness of the first plant when displayed in a third manner is different from the degree of lushness of the first plant when displayed in a fourth manner.
[0059] In other words, the lushness of the first plant in the first scene is related to the concentration of the first fragrance; different fragrance concentrations correspond to different degrees of lushness. Lushness here can also be understood as the density of the plants. For example, the greater the lushness, the denser the plant. Conversely, the less lush the plant, the sparser it is.
[0060] Through the above implementation method, the lushness of plants is related to the concentration of fragrance. The processing device can distinguish and display the lushness of plants under different fragrance concentrations, which can further refine and enrich the visualization effect of fragrance and enhance the user's visual experience.
[0061] In another possible implementation of the first aspect, if the first concentration is greater than the second concentration, the lushness of the first plant when displayed in the third manner is greater than the lushness of the first plant when displayed in the fourth manner. Alternatively, if the first concentration is less than the second concentration, the lushness of the first plant when displayed in the third manner is less than the lushness of the first plant when displayed in the fourth manner.
[0062] In other words, the lushness of the first plant in the first scene is positively correlated with the concentration of the first fragrance. For example, the higher the concentration of the first fragrance, the more lush the first plant will be. Conversely, the lower the concentration of the first fragrance, the less lush the first plant will be.
[0063] Through the above implementation method, the degree of plant lushness is positively correlated with the fragrance concentration. The processing device can distinguish and display the degree of plant lushness under different fragrance concentrations, which can further refine and enrich the visualization effect of the fragrance and enhance the user's visual experience.
[0064] In another possible implementation of the first aspect, when the first concentration is greater than the second concentration, during the process of switching the first plant from being displayed in a third mode to being displayed in a fourth mode, the processing device displays a sixth motion effect in the cockpit screen, the sixth motion effect being presented in a manner in which the lushness of the first plant gradually decreases.
[0065] The sixth animation effect depicts the gradual decrease in the lushness of the first plant. The scene before the sixth animation effect begins is designated as First Fragrance Scene #5, where the first plant is displayed in the third mode, and its lushness level is at its first lushness level. The scene after the sixth animation effect ends is designated as First Fragrance Scene #6, where the first plant is displayed in the fourth mode, and its lushness level is at its second lushness level, which is less than the first lushness level. The process of the first plant switching from the third mode to the fourth mode can also be understood as the transition from First Fragrance Scene #5 to First Fragrance Scene #6. The transition from First Fragrance Scene #5 to First Fragrance Scene #6 is a dynamic process, achieved through the animation effect of the first plant's lushness gradually decreasing, creating a natural transition from First Fragrance Scene #5 to First Fragrance Scene #6.
[0066] In another possible implementation of the first aspect, when the first concentration is less than the second concentration, during the process of the first plant switching from being displayed in a third manner to being displayed in a fourth manner, a seventh motion effect is displayed on the cockpit screen, the seventh motion effect being presented in a manner in which the lushness of the first plant gradually increases.
[0067] The seventh animation effect is used to depict the gradual increase in the lushness of the first plant. The scene before the seventh animation effect begins is designated as First Fragrance Scene #7, where the first plant is displayed in the third mode, and its lushness level is at the first level. The scene after the seventh animation effect ends is designated as First Fragrance Scene #8, where the first plant is displayed in the fourth mode, and its lushness level is at the second level, which is greater than the first. The process of the first plant switching from the third mode to the fourth mode can also be understood as the transition from First Fragrance Scene #7 to First Fragrance Scene #8. The transition from First Fragrance Scene #7 to First Fragrance Scene #8 is a dynamic process, achieved through the animation effect of the first plant's gradually increasing lushness, resulting in a natural transition from First Fragrance Scene #7 to First Fragrance Scene #8.
[0068] Through the above implementation method, during the process of switching the first plant from being displayed in the third mode to being displayed in the fourth mode, the processing device displays a dynamic effect on the cockpit screen that shows the gradual change in the lushness of the first plant, thereby achieving a natural transition between different fragrance scenes (in which the lushness of the first plant is different), which can improve the visualization effect of the fragrance and enhance the user's visual experience.
[0069] In another possible implementation of the first aspect, the fragrance interface includes a time control. The processing device displays first time information in the fragrance interface, the first time information indicating the cycle time of the first fragrance. The processing device receives and responds to a fourth input to the time control, adjusting the cycle time of the first fragrance from a first cycle time to a second cycle time.
[0070] The cycle time can include the duration for the fragrance to release its scent and the duration for which the scent release is paused. The time control can be used to adjust the fragrance cycle time, for example, by increasing or decreasing it. The fourth input refers to input to the time control; for example, the fourth input can include triggering the time control.
[0071] Through the above implementation method, the processing device displays a time control on the fragrance interface. Users can initiate a fourth input to the time control as needed. The processing device receives and responds to this fourth input, adjusting the fragrance cycle time. This satisfies users' needs regarding fragrance cycle time and enhances the user experience.
[0072] In another possible implementation of the first aspect, the circulation time of the first fragrance includes a first time period and a second time period, wherein the first fragrance is released during the first time period and is not released during the second time period.
[0073] The first time period refers to the period during which the first fragrance is released (i.e., the first fragrance releases its scent), and the second time period refers to the period during which the first fragrance is not released (i.e., the first fragrance does not release its scent, or the release of its scent is paused).
[0074] Through the above implementation method, the processing device can control the fragrance to be released for a period of time and then paused for a period of time, thereby allowing the fragrance to be released intermittently. This avoids the situation where users become accustomed to the fragrance after being in a continuous fragrance environment, which may lead to a loss of noticeable fragrance perception. This helps to improve the user's perception of the fragrance and enhances the user experience.
[0075] In another possible implementation of the first aspect, the fragrance interface includes a switch control. The processing device receives and responds to a fifth input to the switch control, turns off the first fragrance, and cancels the display of the first screen content in the cockpit screen.
[0076] The switch control can be used to turn off the fragrance, cancel the display of plant images, cancel the fragrance image, or close the fragrance interface. The fifth input refers to input directed at the switch control; for example, the fifth input may include triggering the switch control.
[0077] Through the above implementation method, the processing device displays a switch control on the fragrance interface, which makes it convenient for users to turn off the fragrance by switching the control, thus improving the user experience.
[0078] In another possible implementation of the first aspect, the processing device displays an eighth motion effect in the cockpit screen before canceling the display of the first screen content. The eighth motion effect is presented in the manner of the first plant gradually disappearing.
[0079] The eighth animation is used to depict the process of the first plant gradually disappearing. The scene before the eighth animation can be the first fragrance scene (including the content of the first scene), and the scene after the eighth animation can be the cockpit scene (excluding the content of the first scene). The scene after the eighth animation can also be understood as the scene where the first plant (or the content of the first scene) completely disappears.
[0080] Through the above implementation method, before canceling the display of the first screen content, the processing device displays the animation effect of the first plant gradually disappearing in the cockpit screen. Through the animation effect of the first plant gradually disappearing, a natural transition is achieved from the first fragrance screen (including the first screen content) to the cockpit screen (excluding the first screen content). This can improve the visualization effect of the fragrance and enhance the user's visual experience.
[0081] In another possible implementation of the first aspect, when the diffusion duration of the first fragrance is a first duration, the first plant in the first screen content is displayed in a fifth manner. When the diffusion duration of the first fragrance is a second duration, the first plant in the first screen content is displayed in a sixth manner. The diffusion duration of the first fragrance is the duration counted from when the first fragrance is activated; the first duration differs from the second duration, and the fifth manner differs from the sixth manner.
[0082] The diffusion range of a fragrance can be related to both its diffusion duration and concentration. For example, with the same fragrance concentration, a longer diffusion duration generally results in a larger diffusion range, while a shorter diffusion duration generally results in a smaller diffusion range. Similarly, with the same diffusion duration, a higher fragrance concentration generally results in a larger diffusion range, while a lower fragrance concentration generally results in a smaller diffusion range. Therefore, the diffusion range of a fragrance can be determined by combining both diffusion duration and fragrance concentration.
[0083] The display method of the first plant in the first screen can be related to the diffusion range of the first fragrance. The diffusion range of the first fragrance can be determined based on its diffusion duration (for example, the diffusion range of the first fragrance increases as the diffusion duration increases). Therefore, the display method of the first plant in the first screen can also be related to the diffusion duration of the first fragrance. Different fragrance diffusion durations can correspond to different plant display methods. The fifth method refers to the plant display method corresponding to the first duration, and the sixth method refers to the plant display method corresponding to the second duration. If the first duration and the second duration are different, the fifth method and the sixth method can also be different.
[0084] Through the above implementation method, the processing device can distinguish and display plant images under different fragrance diffusion durations (or different fragrance diffusion ranges), which can further refine and enrich the visualization effect of fragrance and enhance the user's visual experience.
[0085] In another possible implementation of the first aspect, the screen size occupied by the first plant when displayed in the fifth manner is different from the screen size occupied by the first plant when displayed in the sixth manner.
[0086] The screen size occupied by the first plant represents its area. In other words, the area of the first plant in the first frame is related to the diffusion duration of the first fragrance; different fragrance diffusion durations correspond to different plant areas. Here, area refers to the plant's growing area.
[0087] Through the above implementation method, the plant area is related to the fragrance diffusion time. The processing device can distinguish and display the plant area under different fragrance diffusion times, which can further refine and enrich the visualization effect of the fragrance and enhance the user's visual experience.
[0088] In another possible implementation of the first aspect, if the first duration is longer than the second duration, the screen size occupied by the first plant when displayed in the fifth mode is greater than the screen size occupied by the first plant when displayed in the sixth mode. Alternatively, if the first duration is shorter than the second duration, the screen size occupied by the first plant when displayed in the fifth mode is smaller than the screen size occupied by the first plant when displayed in the sixth mode.
[0089] In other words, the area of the first plant in the first scene is positively correlated with the diffusion time of the first fragrance. For example, the longer the diffusion time of the first fragrance, the larger the area of the first plant. Conversely, the shorter the diffusion time of the first fragrance, the smaller the area of the first plant.
[0090] Through the above implementation method, the plant area is positively correlated with the fragrance diffusion time. The processing device can distinguish and display the plant area under different fragrance diffusion times, which can further refine and enrich the visualization effect of the fragrance and enhance the user's visual experience.
[0091] In another possible implementation of the first aspect, when the first duration is less than the second duration, during the process of the first plant switching from being displayed in the fifth mode to being displayed in the sixth mode, a ninth motion effect is displayed on the cockpit screen, and the ninth motion effect is presented in a manner in which the screen size occupied by the first plant gradually increases.
[0092] The ninth animation effect is used to depict the gradual increase in the screen size (or area) occupied by the first plant. The screen before the ninth animation effect begins is designated as First Fragrance Screen #9, where the first plant is displayed in the fifth mode, and its area is designated as the first area. The screen after the ninth animation effect ends is designated as First Fragrance Screen #10, where the first plant is displayed in the sixth mode, and its area is designated as the second area, which is larger than the first area. The process of the first plant switching from the fifth mode to the sixth mode can also be understood as the transition from First Fragrance Screen #9 to First Fragrance Screen #10. The transition from First Fragrance Screen #9 to First Fragrance Screen #10 is a dynamic process, achieved through the animation effect of the first plant's gradually increasing area, resulting in a natural transition from First Fragrance Screen #9 to First Fragrance Screen #10.
[0093] Through the above implementation method, during the process of switching the first plant from being displayed in the fifth mode to being displayed in the sixth mode, the processing device displays a dynamic effect of the area of the first plant gradually changing on the cockpit screen, realizing a natural transition between different fragrance screens (where the area of the first plant is different), which can improve the visualization effect of the fragrance and enhance the user's visual experience.
[0094] In another possible implementation of the first aspect, the processing device receives and responds to the sixth input to open the window or door of the first seat of the vehicle. Before opening the window or door of the first seat of the vehicle, the first plant in the first screen content is displayed in a seventh manner. After opening the window or door of the first seat of the vehicle, the first plant in the first screen content is displayed in an eighth manner. The seventh manner differs from the eighth manner.
[0095] The sixth input refers to an input targeting the window or door of the vehicle's first seat, used to trigger the opening of the vehicle's first seat window or door. Optionally, the first seat may include one or more seats. For example, the first seat may be a left-side seat, such as the front left seat (or driver's seat) or the rear left seat, and correspondingly, the window or door of the first seat may be a left-side window or door. As another example, the first seat may be a right-side seat, such as the front right seat (or front passenger seat) or the rear right seat, and correspondingly, the window or door of the first seat may be a right-side window or door. Furthermore, the first seat may include both left-side and right-side seats, and correspondingly, the window or door of the first seat may include both left-side and right-side windows or doors.
[0096] The display method of the first plant in the first screen can be related to the state of the car window or door (open or closed). Different window or door states correspond to different plant display methods. Before the first seat window or door of the vehicle is opened, the window or door is closed. After the first seat window or door of the vehicle is opened, the window or door is open. The seventh method refers to the plant display method when the window or door is closed, and the eighth method refers to the plant display method when the window or door is open.
[0097] Through the above implementation method, the processing device can distinguish and display plant images under different window or door conditions, which can further refine and enrich the visualization effect of the fragrance and enhance the user's visual experience.
[0098] In yet another possible implementation of the first aspect, the swaying state of the first plant when displayed in the seventh manner is different from the swaying state of the first plant when displayed in the eighth manner.
[0099] In other words, the swaying state of the first plant in the first frame is related to the state of the car window or door; different states of the car window or door can correspond to different swaying states of the plant. For example, the swaying state of the plant may include, but is not limited to, the swaying direction, swaying amplitude, and swaying frequency.
[0100] Through the above implementation method, the swaying state of the plant is related to the state of the car window or door. The processing device can distinguish and display the swaying state of the plant under different car window or door states, which can further refine and enrich the visualization effect of the fragrance and enhance the user's visual experience.
[0101] In yet another possible implementation of the first aspect, the oscillation state includes the oscillation amplitude. The oscillation amplitude when the first plant is displayed in the seventh manner is smaller than the oscillation amplitude when the first plant is displayed in the eighth manner.
[0102] In other words, the swaying amplitude of the first plant when the car window or door is closed is less than the swaying amplitude of the first plant when the car window or door is open. For example, the swaying amplitude of the first plant can be the angle at which its branches (or flowers, or leaves) deviate from the vertical. The swaying amplitude of the first plant can also be understood as the degree of tilt of the first plant. For example, the greater the swaying amplitude of the first plant, the greater its degree of tilt (i.e., the more tilted). Conversely, the smaller the swaying amplitude of the first plant, the smaller its degree of tilt (i.e., the less tilted, or the straighter).
[0103] Through the above implementation method, the plant swaying amplitude is related to the state of the car window or door. The processing device can distinguish and display the plant swaying amplitude under different car window or door states, which can further refine and enrich the visualization effect of the fragrance and enhance the user's visual experience.
[0104] In another possible implementation of the first aspect, during the process of the first plant switching from being displayed in a seventh manner to being displayed in an eighth manner, the processing device displays a tenth motion effect in the cockpit screen, the tenth motion effect being presented in a manner in which the swaying amplitude of the first plant gradually increases.
[0105] The tenth animation effect depicts the gradual increase in the swaying amplitude of the first plant. The scene before the tenth animation effect begins is designated as First Fragrance Scene #11, where the first plant is displayed in the seventh mode, with its swaying amplitude at the first amplitude. The scene after the tenth animation effect ends is designated as First Fragrance Scene #12, where the first plant is displayed in the eighth mode, with its swaying amplitude at the second amplitude, which is greater than the first. The transition from displaying the first plant in the seventh mode to the eighth mode can also be understood as the transition from First Fragrance Scene #11 to First Fragrance Scene #12. The transition from First Fragrance Scene #11 to First Fragrance Scene #12 is a dynamic process, achieved through the gradually increasing swaying amplitude of the first plant, creating a natural transition from First Fragrance Scene #11 to First Fragrance Scene #12.
[0106] Through the above implementation method, during the process of switching the first plant from the seventh mode to the eighth mode, the processing device displays a motion effect on the cockpit screen that gradually increases the swaying amplitude of the first plant, so as to achieve a natural transition between different fragrance screens (in which the swaying amplitude of the first plant is different), thereby improving the visualization effect of the fragrance and enhancing the user's visual experience.
[0107] In another possible implementation of the first aspect, if the first seat is located on the left side of the vehicle, the first plant swings to the right when displayed in the eighth manner. Alternatively, if the first seat is located on the right side of the vehicle, the first plant swings to the left when displayed in the eighth manner.
[0108] If the first seat is located on the left side of the vehicle, then the open window or door is the left-side window or door. In this case, it can be assumed that the wind outside the vehicle blows into the vehicle from the left, causing the first plant to sway to the right. If the first seat is located on the right side of the vehicle, then the open window or door is the right-side window or door. In this case, it can be assumed that the wind outside the vehicle blows into the vehicle from the right, causing the first plant to sway to the left.
[0109] Through the above implementation method, the direction of plant swaying is related to the position of the open car window or door. The processing device can distinguish and display the direction of plant swaying when the car window or door is open in different positions. This can further refine and enrich the visualization effect of the fragrance and enhance the user's visual experience.
[0110] In another possible implementation of the first aspect, the processing device receives and responds to a seventh input to the first fragrance screen by adjusting the display mode of the first plant in the content of the first screen. Before receiving the seventh input to the first fragrance screen, the first plant is displayed in a ninth mode. After receiving the seventh input to the first fragrance screen, the first plant is displayed in a tenth mode. The ninth mode is different from the tenth mode.
[0111] The seventh input refers to input to the first fragrance screen. For example, the seventh input may include a swipe operation on the first fragrance screen. The interactive state of the first fragrance screen differs before and after the seventh input. For example, before the seventh input, the interactive state of the first fragrance screen is recorded as the non-interactive state; after the seventh input, the interactive state of the first fragrance screen is recorded as the interactive state. The display method of the first plant can be related to the interactive state of the first fragrance screen; different plant display methods can correspond to different interactive states of the first fragrance screen. The ninth method can be understood as the plant display method corresponding to the first fragrance screen being in the non-interactive state, and the tenth method can be understood as the plant display method corresponding to the first fragrance screen being in the interactive state.
[0112] Through the above implementation method, the processing device can distinguish and display plant images in different interactive states of the fragrance image, which can further refine and enrich the visualization effect of the fragrance and enhance the user's visual experience.
[0113] In yet another possible implementation of the first aspect, the swaying state of the first plant when displayed in the ninth manner is different from the swaying state of the first plant when displayed in the tenth manner.
[0114] In other words, the swaying state of the first plant in the first screen is related to the interaction state of the first fragrance screen. Different plant swaying states can correspond to different interaction states of the first fragrance screen. For example, the swaying state of the plant may include, but is not limited to, the swaying direction, swaying amplitude, and swaying frequency.
[0115] Through the above implementation method, the swaying state of the plant is related to the interactive state of the fragrance screen. The processing device can distinguish and display the swaying state of the plant when the fragrance screen is in different interactive states, which can further refine and enrich the visualization effect of the fragrance and enhance the user's visual experience.
[0116] In yet another possible implementation of the first aspect, the oscillation state includes the oscillation amplitude. The oscillation amplitude when the first plant is displayed in the ninth manner is smaller than the oscillation amplitude when the first plant is displayed in the tenth manner.
[0117] In other words, the swaying amplitude of the first plant when the first fragrance screen is in an uninteractive state is less than the swaying amplitude of the first plant when the first fragrance screen is in an interactive state.
[0118] Through the above implementation method, the swaying amplitude of the plant is related to the interactive state of the fragrance image. The processing device can distinguish and display the swaying amplitude of the plant in different interactive states of the fragrance image, which can further refine and enrich the visualization effect of the fragrance and enhance the user's visual experience.
[0119] In another possible implementation of the first aspect, during the process of the first plant switching from being displayed in the ninth manner to being displayed in the tenth manner, an eleventh motion effect is displayed in the cockpit screen, the eleventh motion effect being presented in a manner in which the swaying amplitude of the first plant gradually increases.
[0120] The eleventh animation effect depicts the gradual increase in the swaying amplitude of the first plant. The scene before the eleventh animation effect begins is designated as Fragrance Scene #13, where the first plant is displayed in the ninth mode, with its swaying amplitude at the third level. The scene after the eleventh animation effect ends is designated as Fragrance Scene #14, where the first plant is displayed in the tenth mode, with its swaying amplitude at the fourth level, which is greater than the third. The transition from displaying the first plant in the ninth mode to the tenth mode can also be understood as the transition from Fragrance Scene #13 to Fragrance Scene #14. The transition from Fragrance Scene #13 to Fragrance Scene #14 is a dynamic process, achieved through the gradually increasing swaying amplitude of the first plant, creating a natural transition from Fragrance Scene #13 to Fragrance Scene #14.
[0121] Through the above implementation method, during the process of switching the first plant from the ninth mode to the tenth mode, the processing device displays a motion effect on the cockpit screen that gradually increases the swaying amplitude of the first plant, so as to achieve a natural transition between different fragrance screens (where the swaying amplitude of the first plant is different), thereby improving the visualization effect of the fragrance and enhancing the user's visual experience.
[0122] In yet another possible implementation of the first aspect, the seventh input includes a sliding input along a first direction, which swings along the first direction when the first plant is displayed in a tenth manner.
[0123] The first direction refers to the sliding input direction on the first fragrance screen. The swing direction of the first plant when displayed in the tenth mode is the same as the first direction. For example, if the first direction is to the right, the first plant will swing to the right when displayed in the tenth mode. Or, if the first direction is to the left, the first plant will swing to the left when displayed in the tenth mode.
[0124] Through the above implementation method, the direction of plant swaying is related to the sliding input direction on the fragrance screen. The processing device can distinguish and display the direction of plant swaying under different sliding directions, which can further refine and enrich the visualization effect of the fragrance and enhance the user's visual experience.
[0125] In yet another possible implementation of the first aspect, the seventh input includes a gesture trajectory, which is scaled according to when the first plant is displayed in a tenth manner.
[0126] Gesture trajectories can be used to trigger zooming in or out of plant images (or fragrance images). Optionally, a correspondence between gesture trajectories and zoom methods can be preset. For example, a first gesture trajectory corresponds to a first zoom method (e.g., zooming in according to a first ratio), and a second gesture trajectory corresponds to a second zoom method (e.g., zooming out according to a second ratio), but this application does not impose any limitations on this.
[0127] Through the above implementation method, the processing device can zoom in and out of the fragrance image according to the gesture trajectory, which can further refine and enrich the visualization effect of the fragrance and enhance the user's visual experience.
[0128] In another possible implementation of the first aspect, the processing device receives and responds to the eighth input to play the first medium. Before playing the first medium, the first plant in the first screen content is displayed in an eleventh manner. After playing the first medium, the first plant in the first screen content is displayed in a twelfth manner. The eleventh manner differs from the twelfth manner.
[0129] The eighth input refers to the input to the first media, used to trigger its playback. For example, the eighth input may include triggering the playback control of the first media. The media playback state differs before and after the eighth input. For example, before the eighth input, the media playback state is recorded as "not playing," and after the eighth input, it is recorded as "playing." The display method of the first plant can be related to the media playback state; different media playback states can correspond to different plant display methods. The eleventh method can be understood as the plant display method corresponding to the "not playing" state, and the twelfth method can be understood as the plant display method corresponding to the "playing" state.
[0130] Through the above implementation method, the processing device can distinguish and display plant images under different media playback states, which can further refine and enrich the visualization effect of fragrance and enhance the user's visual experience.
[0131] In yet another possible implementation of the first aspect, the swaying state of the first plant when displayed in the eleventh manner is different from the swaying state of the first plant when displayed in the twelfth manner.
[0132] In other words, the swaying state of the first plant in the first frame is related to the media playback state; different media playback states can correspond to different plant swaying states. For example, the plant swaying state may include, but is not limited to, the swaying direction, swaying amplitude, and swaying frequency.
[0133] Through the above implementation method, the plant swaying state is related to the media playback state. The processing device can distinguish and display the plant swaying state under different media playback states, which can further refine and enrich the visualization effect of the fragrance and enhance the user's visual experience.
[0134] In yet another possible implementation of the first aspect, the swaying amplitude of the first plant when displayed in the eleventh manner is smaller than the swaying amplitude of the first plant when displayed in the twelfth manner.
[0135] In other words, the swaying amplitude of the first plant when it is not playing is less than the swaying amplitude of the first plant when it is playing.
[0136] Through the above implementation method, the plant swaying amplitude is related to the media playback state. The processing device can distinguish and display the plant swaying amplitude under different media playback states, which can further refine and enrich the visualization effect of the fragrance and enhance the user's visual experience.
[0137] In another possible implementation of the first aspect, during the process of switching the first plant from being displayed in an eleventh mode to being displayed in a twelfth mode, the processing device displays a twelfth motion effect in the cockpit screen, the twelfth motion effect being presented in a manner in which the swaying amplitude of the first plant gradually increases.
[0138] The twelfth animation effect depicts the gradual increase in the swaying amplitude of the first plant. The scene before the twelfth animation effect begins is designated as Fragrance Scene #15, where the first plant is displayed in the eleventh mode, with a swaying amplitude of the fifth amplitude. The scene after the twelfth animation effect ends is designated as Fragrance Scene #16, where the first plant is displayed in the twelfth mode, with a swaying amplitude of the sixth amplitude, which is greater than the fifth amplitude. The transition from displaying the first plant in the eleventh mode to the twelfth mode can also be understood as the transition from Fragrance Scene #15 to Fragrance Scene #16. The transition from Fragrance Scene #15 to Fragrance Scene #16 is a dynamic process, achieved through the gradually increasing swaying amplitude of the first plant, creating a natural transition from Fragrance Scene #15 to Fragrance Scene #16.
[0139] Through the above implementation method, during the process of switching the first plant from the eleventh mode to the twelfth mode, the processing device displays a motion effect on the cockpit screen that gradually increases the swaying amplitude of the first plant, so as to achieve a natural transition between different fragrance screens (in which the swaying amplitude of the first plant is different), thereby improving the visualization effect of the fragrance and enhancing the user's visual experience.
[0140] In another possible implementation of the first aspect, if the first media is played at a first rhythm, the swaying frequency of the first plant when displayed in the twelfth manner is the first frequency. If the first media is played at a second rhythm, the swaying frequency of the first plant when displayed in the twelfth manner is the second frequency. The first rhythm is faster than the second rhythm, and the first frequency is greater than the second frequency.
[0141] In other words, the swaying frequency of the first plant is related to the playback rhythm of the first medium; different media playback rhythms correspond to different plant swaying frequencies. For example, the faster the media playback rhythm, the higher the corresponding plant swaying frequency. Conversely, the slower the media playback rhythm, the lower the corresponding plant swaying frequency. For instance, the plant swaying frequency when the first medium is a fast song is higher than the plant swaying frequency when the first medium is a slow song.
[0142] For example, the swaying frequency of the first plant can be the frequency at which the branches (or flowers, or leaves) of the first plant sway back and forth with the vertical direction as the center. The swaying frequency of the first plant can also be understood as the swaying speed of the first plant. For example, the higher the swaying frequency of the first plant, the faster the swaying speed of the first plant. Conversely, the lower the swaying frequency of the first plant, the slower the swaying speed of the first plant.
[0143] Through the above implementation method, the plant swaying frequency is related to the media playback rhythm. The processing device can distinguish and display the plant swaying frequency under different media playback rhythms, which can further refine and enrich the visualization effect of the fragrance and enhance the user's visual experience.
[0144] In a second aspect, this application provides a processing apparatus comprising modules or units for performing methods as described in the first aspect or any possible implementation thereof.
[0145] In one possible implementation of the second aspect, the processing device includes a transceiver unit and a processing unit. The transceiver unit is used to receive a fragrance activation input. The processing unit is used to respond to the fragrance activation input, display a fragrance interface, and display a first fragrance screen in the fragrance interface. The first fragrance screen includes a cabin screen and first screen content corresponding to the first fragrance. The cabin screen represents the vehicle's cabin, and the first screen content is displayed in the cabin screen, including a first plant.
[0146] In one possible implementation of the second aspect, the processing unit displays a first motion effect in the cockpit screen before displaying the content of the first screen, the first motion effect being presented in the manner of the growth of a first plant.
[0147] In another possible implementation of the second aspect, the processing unit activates the first fragrance after receiving the fragrance activation input.
[0148] In another possible implementation of the second aspect, the processing unit displays a fragrance interface in response to a fragrance activation input. The fragrance interface includes a first fragrance control and a cockpit screen. The transceiver unit is used to receive a first input to the first fragrance control, and the processing unit is used to display the content of a first screen on the cockpit screen in response to the first input to the first fragrance control.
[0149] In another possible implementation of the second aspect, the fragrance interface further includes a second fragrance control. The transceiver unit is further configured to receive a second input to the second fragrance control. The processing unit is further configured to display a second fragrance screen in the fragrance interface in response to the second input to the second fragrance control. The second fragrance screen includes a cabin view and second screen content corresponding to the second fragrance, the second screen content being displayed in the cabin view, and the second screen content including a second plant. The second fragrance control differs from the first fragrance control, and the second fragrance screen differs from the first fragrance screen.
[0150] In another possible implementation of the second aspect, during the transition from the first screen content to the second screen content, the processing unit is also used to display a second motion effect and a third motion effect on the cockpit screen. The second motion effect is presented as the first plant gradually disappears, and the third motion effect is presented as the second plant grows.
[0151] In another possible implementation of the second aspect, the processing unit is further configured to display first remaining quantity information in the fragrance interface, the first remaining quantity information indicating the remaining quantity of the first fragrance. When the remaining quantity of the first fragrance is the first remaining quantity, the first plant in the first screen content is displayed in a first manner. When the remaining quantity of the first fragrance is the second remaining quantity, the first plant in the first screen content is displayed in a second manner. The first remaining quantity and the second remaining quantity are different, and the first manner and the second manner are different.
[0152] In another possible implementation of the second aspect, the height at which the first plant is displayed in the first manner is different from the height at which the first plant is displayed in the second manner.
[0153] In another possible implementation of the second aspect, if the first margin is greater than the second margin, then the height of the first plant when displayed in the first manner is higher than the height of the first plant when displayed in the second manner. Alternatively, if the first margin is less than the second margin, then the height of the first plant when displayed in the first manner is lower than the height of the first plant when displayed in the second manner.
[0154] In another possible implementation of the second aspect, when the first margin is greater than the second margin, during the process of the first plant switching from being displayed in the first mode to being displayed in the second mode, the processing unit is also used to display a fourth motion effect in the cockpit screen, the fourth motion effect being presented in a manner in which the height of the first plant gradually decreases.
[0155] In another possible implementation of the second aspect, when the first margin is less than the second margin, during the process of switching the first plant from being displayed in the first mode to being displayed in the second mode, the processing unit is also used to display a fifth motion effect in the cockpit screen, the fifth motion effect being presented in a manner in which the height of the first plant gradually increases.
[0156] In another possible implementation of the second aspect, the fragrance interface includes a concentration control. The processing unit is further configured to display first concentration information in the fragrance interface, the first concentration information indicating the concentration of a first fragrance. The transceiver unit is further configured to receive a third input to the concentration control. The processing unit is further configured to adjust the concentration of the first fragrance from a first concentration to a second concentration in response to the third input to the concentration control. When the concentration of the first fragrance is the first concentration, the first plant in the first screen content is displayed in a third manner. When the concentration of the first fragrance is the second concentration, the first plant in the first screen content is displayed in a fourth manner. The first concentration is different from the second concentration, and the third manner is different from the fourth manner.
[0157] In another possible implementation of the second aspect, the degree of lushness of the first plant when displayed in the third manner is different from the degree of lushness of the first plant when displayed in the fourth manner.
[0158] In another possible implementation of the second aspect, if the first concentration is greater than the second concentration, the lushness of the first plant when displayed in the third manner is greater than the lushness of the first plant when displayed in the fourth manner. Alternatively, if the first concentration is less than the second concentration, the lushness of the first plant when displayed in the third manner is less than the lushness of the first plant when displayed in the fourth manner.
[0159] In another possible implementation of the second aspect, when the first concentration is greater than the second concentration, during the process of switching the first plant from being displayed in a third mode to being displayed in a fourth mode, the processing unit is also used to display a sixth motion effect in the cockpit screen, the sixth motion effect being presented in a manner in which the lushness of the first plant gradually decreases.
[0160] In another possible implementation of the second aspect, when the first concentration is less than the second concentration, during the process of switching the first plant from being displayed in a third mode to being displayed in a fourth mode, the processing unit is also used to display a seventh motion effect in the cockpit screen, the seventh motion effect being presented in a manner in which the lushness of the first plant gradually increases.
[0161] In another possible implementation of the second aspect, the fragrance interface includes a time control. The processing unit is further configured to display first time information in the fragrance interface, the first time information indicating the cycle time of the first fragrance. The transceiver unit is further configured to receive a fourth input to the time control, and the processing unit is further configured to adjust the cycle time of the first fragrance from a first cycle time to a second cycle time in response to the fourth input to the time control.
[0162] In another possible implementation of the second aspect, the circulation time of the first fragrance includes a first time period and a second time period, wherein the first fragrance is released in the first time period and is not released in the second time period.
[0163] In another possible implementation of the second aspect, the fragrance interface includes a switch control. The transceiver unit is further configured to receive a fifth input to the switch control. The processing unit is further configured to, in response to the fifth input to the switch control, turn off the first fragrance and cancel the display of the first screen content in the cockpit screen.
[0164] In another possible implementation of the second aspect, the processing unit is further configured to display an eighth motion effect in the cockpit screen before canceling the display of the first screen content, the eighth motion effect being presented in the manner of the first plant gradually disappearing.
[0165] In another possible implementation of the second aspect, when the diffusion duration of the first fragrance is a first duration, the first plant in the first screen content is displayed in a fifth manner. When the diffusion duration of the first fragrance is a second duration, the first plant in the first screen content is displayed in a sixth manner. The diffusion duration of the first fragrance is the duration counted from when the first fragrance is activated; the first duration differs from the second duration, and the fifth manner differs from the sixth manner.
[0166] In another possible implementation of the second aspect, the screen size occupied by the first plant when displayed in the fifth manner is different from the screen size occupied by the first plant when displayed in the sixth manner.
[0167] In another possible implementation of the second aspect, if the first duration is longer than the second duration, the screen size occupied by the first plant when displayed in the fifth mode is greater than the screen size occupied by the first plant when displayed in the sixth mode. Alternatively, if the first duration is shorter than the second duration, the screen size occupied by the first plant when displayed in the fifth mode is smaller than the screen size occupied by the first plant when displayed in the sixth mode.
[0168] In another possible implementation of the second aspect, when the first duration is less than the second duration, during the process of the first plant switching from being displayed in the fifth mode to being displayed in the sixth mode, the processing unit is also used to display a ninth motion effect in the cockpit screen, the ninth motion effect being presented in a manner in which the screen size occupied by the first plant gradually increases.
[0169] In another possible implementation of the second aspect, the transceiver unit is further configured to receive a sixth input. The processing unit is further configured to, in response to the sixth input, open the window or door of the first seat of the vehicle. Before opening the window or door of the first seat of the vehicle, the first plant in the first screen content is displayed in a seventh manner. After opening the window or door of the first seat of the vehicle, the first plant in the first screen content is displayed in an eighth manner. The seventh manner differs from the eighth manner.
[0170] In another possible implementation of the second aspect, the swaying state of the first plant when displayed in the seventh manner is different from the swaying state of the first plant when displayed in the eighth manner.
[0171] In another possible implementation of the second aspect, the oscillation state includes the oscillation amplitude. The oscillation amplitude when the first plant is displayed in the seventh manner is smaller than the oscillation amplitude when the first plant is displayed in the eighth manner.
[0172] In another possible implementation of the second aspect, during the process of the first plant switching from being displayed in the seventh mode to being displayed in the eighth mode, the processing unit is also used to display a tenth motion effect in the cockpit screen, the tenth motion effect being presented in a manner in which the swaying amplitude of the first plant gradually increases.
[0173] In another possible implementation of the second aspect, if the first seat is located on the left side of the vehicle, the first plant swings to the right when displayed in the eighth manner. Alternatively, if the first seat is located on the right side of the vehicle, the first plant swings to the left when displayed in the eighth manner.
[0174] In another possible implementation of the second aspect, the transceiver unit is further configured to receive a seventh input to the first fragrance screen. The processing unit is further configured to adjust the display mode of the first plant in the content of the first screen in response to the seventh input to the first fragrance screen. Before receiving the seventh input to the first fragrance screen, the first plant is displayed in a ninth mode. After receiving the seventh input to the first fragrance screen, the first plant is displayed in a tenth mode. The ninth mode differs from the tenth mode.
[0175] In another possible implementation of the second aspect, the swaying state of the first plant when displayed in the ninth manner is different from the swaying state of the first plant when displayed in the tenth manner.
[0176] In another possible implementation of the second aspect, the oscillation state includes the oscillation amplitude. The oscillation amplitude when the first plant is displayed in the ninth manner is smaller than the oscillation amplitude when the first plant is displayed in the tenth manner.
[0177] In another possible implementation of the second aspect, during the process of the first plant switching from being displayed in the ninth mode to being displayed in the tenth mode, the processing unit is also used to display an eleventh motion effect in the cockpit screen, the eleventh motion effect being presented in a manner in which the swaying amplitude of the first plant gradually increases.
[0178] In another possible implementation of the second aspect, the seventh input includes a sliding input along a first direction, which swings along the first direction when the first plant is displayed in a tenth manner.
[0179] In another possible implementation of the second aspect, the seventh input includes a gesture trajectory, which is scaled according to when the first plant is displayed in the tenth manner.
[0180] In another possible implementation of the second aspect, the transceiver unit is further configured to receive an eighth input. The processing unit is further configured to play the first medium in response to the eighth input. Before playing the first medium, the first plant in the first screen content is displayed in an eleventh manner. After playing the first medium, the first plant in the first screen content is displayed in a twelfth manner. The eleventh manner differs from the twelfth manner.
[0181] In another possible implementation of the second aspect, the swaying state of the first plant when it is displayed in the eleventh manner is different from the swaying state of the first plant when it is displayed in the twelfth manner.
[0182] In another possible implementation of the second aspect, the swaying amplitude of the first plant when displayed in the eleventh manner is smaller than the swaying amplitude of the first plant when displayed in the twelfth manner.
[0183] In another possible implementation of the second aspect, during the process of switching the first plant from being displayed in an eleventh mode to being displayed in a twelfth mode, the processing unit is also used to display a twelfth motion effect in the cockpit screen, the twelfth motion effect being presented in a manner in which the swaying amplitude of the first plant gradually increases.
[0184] In another possible implementation of the second aspect, if the first media is played at a first rhythm, the swaying frequency of the first plant when displayed in the twelfth manner is the first frequency. If the first media is played at a second rhythm, the swaying frequency of the first plant when displayed in the twelfth manner is the second frequency. The first rhythm is faster than the second rhythm, and the first frequency is greater than the second frequency.
[0185] Thirdly, this application provides a computing device including a processor and a communication interface. The communication interface is used for outputting and / or outputting data (including instructions), and / or for receiving and / or sending data. When the processor executes a computer program stored in memory, it implements the method described in the first aspect or any possible embodiment of the first aspect.
[0186] Fourthly, this application provides a computing device including one or more processors and one or more memories. The one or more memories are coupled to the one or more processors, and the one or more memories are used to store a computer program. The one or more processors invoke the computer program to implement the method described in the first aspect or any possible embodiment of the first aspect.
[0187] Optionally, the computing device described in the fourth or fifth aspect above includes a chip. This chip can be a single chip or a chip system composed of multiple chips.
[0188] Alternatively, the computing device may be a computing platform.
[0189] Fifthly, this application provides a chip including a processing circuit and an interface circuit. The interface circuit receives code instructions and transmits them to the processing circuit, which then executes the code instructions to perform the method described in the first aspect or any possible implementation thereof. The chip here can be a single chip or a chip system composed of multiple chips.
[0190] Sixthly, this application provides an intelligent cockpit, which is applied to a vehicle or other means of transportation capable of accommodating people. The intelligent cockpit includes the processing device described in the second aspect above, or the computing device described in the third aspect above, or the computing device described in the fourth aspect above, or the chip described in the fifth aspect above.
[0191] In a seventh aspect, this application provides a vehicle that includes the processing device described in the second aspect above, or the computing device described in the third aspect above, or the computing device described in the fourth aspect above, or the chip described in the fifth aspect above, or the smart cockpit described in the sixth aspect above.
[0192] Eighthly, this application provides a computer-readable storage medium storing a computer program that, when executed, implements the method described in the first aspect or any possible implementation thereof.
[0193] Ninthly, this application provides a computer program product, which includes a computer program that, when executed, implements the method described in the first aspect or any possible implementation thereof.
[0194] The beneficial effects of the solutions in aspects two through nine above can be found in the beneficial effects described in aspect one above, and will not be repeated here. Attached Figure Description
[0195] The accompanying drawings used in the embodiments of this application will be briefly described below.
[0196] Figure 1 This is a schematic diagram of the architecture of an interactive system provided in an embodiment of this application;
[0197] Figure 2 This is a schematic diagram of the structure of a data processing device provided in an embodiment of this application;
[0198] Figure 3 This is a schematic diagram of the architecture of another interactive system provided in an embodiment of this application;
[0199] Figure 4 This is a schematic diagram of a vehicle's architecture;
[0200] Figure 5 This is a schematic diagram of a cockpit;
[0201] Figure 6 This is a schematic flowchart of a fragrance display method provided in an embodiment of this application;
[0202] Figure 7 This is a schematic diagram of a first fragrance display provided in an embodiment of this application;
[0203] Figure 8 This is a schematic diagram of a first motion effect provided in an embodiment of this application;
[0204] Figure 9A This is a schematic diagram of a fragrance interface before the first input provided in an embodiment of this application;
[0205] Figure 9B This is a schematic diagram of a fragrance interface after the first input provided in an embodiment of this application;
[0206] Figure 10 This is a schematic diagram of a second fragrance display provided in an embodiment of this application;
[0207] Figure 11A This is a schematic diagram of a fragrance interface before the second input provided in an embodiment of this application;
[0208] Figure 11B This is a schematic diagram of a fragrance interface after a second input, provided in an embodiment of this application;
[0209] Figure 12 This is a schematic diagram of a second motion effect provided in an embodiment of this application;
[0210] Figure 13 This is a schematic diagram of a third motion effect provided in an embodiment of this application;
[0211] Figure 14A This is a schematic diagram of a fragrance interface under a first margin provided in an embodiment of this application;
[0212] Figure 14B This is a schematic diagram of a fragrance interface under a second margin provided in an embodiment of this application;
[0213] Figure 14C This is a schematic diagram of a fragrance interface under a third margin provided in an embodiment of this application;
[0214] Figure 15A This is a schematic diagram of a fragrance interface at a first concentration provided in an embodiment of this application;
[0215] Figure 15B This is a schematic diagram of a fragrance interface at a second concentration provided in an embodiment of this application;
[0216] Figure 15C This is a schematic diagram of a fragrance interface at a third concentration provided in an embodiment of this application;
[0217] Figure 16A This is a schematic diagram of a fragrance interface under a first duration provided in an embodiment of this application;
[0218] Figure 16B This is a schematic diagram of a fragrance interface under a second duration provided in an embodiment of this application;
[0219] Figure 16C This is a schematic diagram of a fragrance interface under a third duration provided in an embodiment of this application;
[0220] Figure 17A This is a schematic diagram of a first fragrance display screen when the car window or door is closed, as provided in an embodiment of this application.
[0221] Figure 17B This is a schematic diagram of a first fragrance display when a car window or door is open, as provided in an embodiment of this application.
[0222] Figure 18A This is a schematic diagram of a first fragrance display screen when the left side window or door is open, as provided in an embodiment of this application.
[0223] Figure 18B This is a schematic diagram of a first fragrance display screen when the right-side window or door is open, as provided in an embodiment of this application.
[0224] Figure 19A This is a schematic diagram of a first fragrance screen in a non-interactive state, provided in an embodiment of this application;
[0225] Figure 19B This is a schematic diagram of a first fragrance screen in an interactive state, provided in an embodiment of this application;
[0226] Figure 20 This is a schematic diagram of the structure of a processing device provided in an embodiment of this application;
[0227] Figure 21 This is a schematic diagram of the structure of a computing device provided in an embodiment of this application;
[0228] Figure 22This is a schematic diagram of the structure of a chip provided in an embodiment of this application. Detailed Implementation
[0229] The embodiments of this application will now be described in detail with reference to the accompanying drawings.
[0230] This application can be applied to scenarios requiring human-computer interaction, such as smart vehicles, smart homes, smart showrooms, and smart security systems. For example, this application can be applied to electronic devices such as vehicles, televisions, and tablets.
[0231] The interactive system involved in the embodiments of this application will be introduced below.
[0232] Please see Figure 1 , Figure 1 This is a schematic diagram of the architecture of an interactive system provided in an embodiment of this application. The interactive system 100 includes a data processing device 10 and a display screen 20. The data processing device 10 is a module with data processing capabilities, such as being able to perform logical operations, and can be a physical device or a virtual software functional unit.
[0233] As an example of a physical device, the data processing device 10 is shown below. Figure 2 , Figure 2 This is a schematic diagram of the structure of a data processing device provided in an embodiment of this application. The data processing device 10 may include at least one processor 11. Optionally, the data processing device 10 may also include one or more of the following: a communication interface 12, a power management module 13, an internal memory 14, and an external memory interface 15.
[0234] The processor 11 is a module capable of running programs or computer instructions to achieve corresponding functions. In one implementation, the processor 11 includes circuits with instruction reading and execution capabilities, such as an arithmetic logic unit (ALU), processor core, CPU, microprocessor unit (MPU), MCU, graphics processing unit (GPU), data processing unit (DPU), or digital signal processor (DSP). In another implementation, the processor 11 implements certain functions through the logic of hardware circuits. The logic of these hardware circuits is fixed or reconfigurable. For example, the processor 11 is a hardware circuit implemented using an application-specific integrated circuit (ASIC) or a programmable logic device (PLD), such as a field-programmable gate array (FPGA). In reconfigurable hardware circuits, the process of the processor loading configuration information and configuring the hardware circuit can be viewed as the process of the processor loading instructions to achieve corresponding functions. In some implementations, processor 11 includes hardware circuitry designed for artificial intelligence, which can be understood as an ASIC, such as a neural network processing unit (NPU), tensor processing unit (TPU), or deep learning processing unit (DPU). In some implementations, data processing device 10 includes at least one processor integrated as a system-on-chip (SoC), commonly referred to as an SoC by those skilled in the art. The SoC may include at least one processor; when the SoC includes multiple processors, the types of processors can differ, such as including GPUs and DPUs, or CPUs, NPUs, and MCUs.
[0235] In some cases, the data processing device 10 also has data storage capabilities, such as including or being connected to a memory (e.g., internal memory 14). In the latter case, the data processing device 10 may include an external memory interface 15 to facilitate read and / or write operations to external memory.
[0236] In some cases, the data processing device 10 also includes a communication interface 12, which supports the data processing device in receiving data from and / or transmitting data to external sources. In some possible implementations, the communication interface includes one or more of the following: an image data serial interface, a data (or signal) communication interface, etc. The image data serial interface includes, but is not limited to: a mobile industry processor interface (MIPI), a display serial interface (DSI), a display port (DP), an embedded display port (eDP), etc. The data (or signal) communication interface includes interfaces supporting one or more of the following communication methods: an inter-integrated circuit (I2C) bus, a serial peripheral interface (SPI), a universal asynchronous receiver / transmitter (UART), a controller area network (CAN), a local interconnect network, Bluetooth, StarFlash, and wireless fidelity (Wi-Fi), etc. For example, the data processing device 10 can be connected to the display screen 20 via a communication interface.
[0237] As an example of a software functional unit, the data processing device 10 includes computing instances such as virtual machines and containers. A virtual machine is a computer system simulated by software, possessing complete hardware system functionality and running in an isolated environment. A container is an isolated environment obtained by packaging applications and their dependencies. As yet another example of a software functional unit, the data processing device 10 may include computer-executable content such as computer instructions, computer programs, or computer code running on the computing instance. The computing instance may include at least one of the following: a physical host, a virtual machine, a container, or other device with instruction execution capabilities.
[0238] The display screen 20 is used to display images or videos, and includes a display panel. Exemplarily, the display panel may be a liquid crystal display (LCD), an organic light-emitting diode (OLED), an active-matrix organic light-emitting diode (AMOLED), a flexible light-emitting diode (FLED), a mini light-emitting diode (MiniLED), a micro light-emitting diode (MicroLED), a micro organic light-emitting diode (Micro-OLED), a quantum dot light-emitting diode (QLED), etc. In one embodiment, the interactive system 100 may include one or N display screens 20, where N is a positive integer greater than 1. For example, the display screen 20 in the interactive system includes one or more of the following: instrument cluster (IC), passenger infotainment screen, instrument central screen (ICS), rear control panel (RCO), and rear infotainment screen.
[0239] In some cases, the display screen 20 includes a touch module, which includes a touch sensor. The display screen 20 including the touch module may be referred to as a touch screen or touch panel. The touch module is used to detect touch operations applied to or near it and generate touch detection information. The detection information can be used to indicate the type of touch event, the location coordinates of the touch operation, the path traversed by the touch, etc.
[0240] In this embodiment, the data processing device 10 can generate display information, which can be provided to the display screen 20 for display. Furthermore, when the data processing device 10 is connected to multiple display screens, the interactive system 100 forms a "one-chip-multiple-screen" architecture, which can use a centralized data processing module to support the display functions of multiple display screens.
[0241] Please refer to the above. Figure 3 , Figure 3This is a schematic diagram of another interactive system architecture provided in an embodiment of this application. The interactive system 100 includes a controller (which can be regarded as the aforementioned data processing device 10). The controller includes a SoC, which includes a GPU, a DPU, an image data transmission interface (such as DSI, DP, or eDP, etc.), and a signal transmission interface (such as I2C). The GPU is used to generate image data, and the DPU is used to process the image, such as image compositing, layer overlay, color processing, or one or more other functions. The image data transmission interface can provide the image data generated in the SoC to the display screen 20. Optionally, the image data can be transmitted to the display screen 20 through a serializer.
[0242] The display screen 20 can receive image data provided by the controller and display it on the display panel. In some cases, the display screen 20 also includes a control system, such as a display main control chip and a display driver chip. The main function of the display main control chip is to drive the pixels of the display screen to light up or turn off, and to control light intensity and color, etc. The display driver chip is responsible for driving the display screen to achieve row and column display. Furthermore, the display screen also includes a touch module, which can detect touch detection information and feed it back to the controller through a signal transmission interface. Optionally, the reporting of touch detection information can be processed by a serializer and a deserializer.
[0243] above Figure 3 An architecture with separate data processing and display is introduced. In some solutions, the data processing device 10 and the display screen 20 can be integrated into a single physical device, that is, the data processing device 10 and the display screen 20 can be integrated into the same electronic device. In this case, the data processing device 10 and the display screen 20 are connected, and the data processing device 10 can process and generate display information, which can be provided to the display screen 20 for display via a connected line.
[0244] In some possible implementations, the interactive system 100 also includes a sensing device that can collect environmental perception information, such as images, point clouds, fused perception data (e.g., a fused image of depth, point clouds, and images), target recognition results, gesture recognition results, and one or more other types of perception information. The data processing device 10 can process the perception information from the sensing device and feed it back to the display interface provided to the display screen 20. For example, the data processing device 10 can sense the user's gesture operations based on the data collected by the sensing device, thereby displaying the adjustment effect of the in-vehicle functions on the interface.
[0245] For example, the sensing device may include one or more sensors capable of sensing environmental information, such as image sensors, lidar sensors, and wireless communication sensors.
[0246] Some or all of the modules in the aforementioned interactive system 100 may be installed in the vehicle.
[0247] The following uses a vehicle as an example to illustrate the equipment and scenarios used in the embodiments of this application. For ease of understanding, the following will first combine... Figure 4 and Figure 5 This paper introduces an architecture for vehicles to which this application can be applied.
[0248] Please see Figure 4 , Figure 4 This is a schematic diagram of a vehicle architecture. Vehicle 400 may include a sensing system 41, a computing device 42, and peripheral devices 43. Furthermore, vehicle 400 can provide seating space for users, for example, it may include a seat or have a large accommodating space to accommodate people. Further, vehicle 400 also includes other subsystems, such as a mobility system 44, a control system 45, or a power supply (not shown). Each subsystem may include one or more components, and subsystems or components can be interconnected via wired or wireless means. Of course, Figure 4 The functional block diagram shown is for illustrative purposes only. In actual implementation, the vehicle may include more or fewer subsystems, and the types and number of components included in the subsystems may also be designed differently.
[0249] The following is a description of each component of the vehicle 400:
[0250] The sensing system 41 may include several sensing devices, or sensors, for sensing information about the environment surrounding or inside the vehicle. Exemplarily, the sensing system 41 may include one or more of the following sensing devices: a camera 411, a microphone 412, a radar 413, a lidar 414, a temperature sensor 415, a humidity sensor 416, a light sensor 417, a positioning system 418, an inertial measurement unit 419, a pressure sensor (not shown), a touch sensor (not shown), etc. The sensing system 41 may also include sensors for sensing the internal environment of the vehicle (e.g., an in-vehicle air quality monitor, a fuel gauge, an oil temperature gauge, etc.). Sensor data from one or more of these sensors can be used to detect the corresponding object and its corresponding characteristics (such as position, shape, orientation, speed, etc.). Some sensing devices are described below as examples.
[0251] The camera 411 is used to collect image data, including images and videos. The camera 411 may include a monocular camera, a binocular camera, a time-of-flight (TOF) camera, a camera from a driver monitoring system (DMS), or a camera from a cockpit monitoring system (CMS), etc. Please see [link to relevant documentation]. Figure 5 , Figure 5This is a schematic diagram of a cockpit. The vehicle includes a camera 411 positioned towards the cockpit, capable of capturing images within the cockpit. Of course, the number and location of the cameras 411 can be configured according to actual needs, such as near the A-pillar on the driver's side, near the A-pillar on the passenger side, on the headrest (or backrest) of the front seats, on the front of the cockpit roof, or integrated into the central control screen.
[0252] Microphone 412 can collect sound data from the surroundings of the vehicle, such as voice or other audio input from the user. Figure 5 As shown, microphone 412 can be installed in the vehicle's steering wheel or integrated into an in-vehicle display device. For microphone 412 installed in the vehicle's cabin, it can collect sound data within the cabin. In some solutions, the sound data collected by microphone 412 can be used for voiceprint recognition to identify the user. For example, some voice control systems require a specific voiceprint from the user to function.
[0253] Radar 413 can use signals such as electromagnetic waves or sound waves to sense objects in the vehicle's surrounding environment and obtain relevant information about the objects. This relevant information may include one or more of the following: distance, angle, speed, direction of travel, reflectivity, color, texture, size, and orientation. LiDAR 414 can use light to sense objects in the vehicle's environment and obtain relevant information about them. Exemplarily, LiDAR 414 may include one or more laser sources, a laser scanner, and one or more detectors, as well as other system components (such as optical elements).
[0254] Other sensors can be found in the relevant prior art, and will not be described in detail here.
[0255] The computing device 42 is a device with computing capabilities. The computing device 42 may include hardware modules with computing capabilities and / or software modules with computing capabilities. Examples are given below based on hardware and software implementations, respectively.
[0256] As an example of hardware implementation, computing device 42 may include at least one processor, which is a module with processing capabilities capable of running programs or computer instructions to perform corresponding functions. A description of the processor can be found in the preceding description of processor 11, and will not be repeated here. Exemplarily, computing device 42 may include, but is not limited to, a DC, MDC, ECU, VIU, etc. The DC may include a cockpit domain controller (CDC).
[0257] As an example of software implementation, computing device 42 may include software functional units. As another example of a software functional unit, computing device 42 may include one or more of the following: an executable computer program, computer code, or computer instructions, where "executable" means able to run on a processor or computing instance. As yet another example of a software functional unit, computing device 42 may include computing instances, including virtual machines, containers, etc. A virtual machine is a computer system simulated by software, possessing complete hardware system functionality and running in an isolated environment. A container is an isolated environment obtained by packaging applications and their dependencies.
[0258] In some embodiments, some or all of the processors included in computing device 42 may be located away from vehicle 400 and be able to transmit information with vehicle 400.
[0259] Peripheral device 43 is used to provide additional services to the user. In some solutions, peripheral device 43 is used for user interaction. For example, peripheral device 43 may include one or more of the following: communication device 431, screen 432, seat 433, air conditioner 434, speaker 435, fragrance diffuser 436, ambient light 437, or car refrigerator 438. Some components are described below as examples:
[0260] The communication device 431 can communicate with one or more devices directly or via a communication network, including wired and wireless communication. In some embodiments, the communication device 431 has adjustable functions; for example, the Bluetooth module can support status settings such as being turned on, off, or searching for nearby devices.
[0261] In some solutions, a communication device 431 supporting wireless communication can receive and / or transmit wireless signals. After being transmitted into the object space, the wireless signal travels through multiple transmission paths to reach the receiving device. The communication device, acting as the receiving device, can sense objects in the object space based on the wave characteristics of the received wireless signal. For example, using the basic Fresnel zone model, the communication device 431 can sense the movement of objects in space based on the waveform of the received wireless signal, thus enabling it to detect users or identify relevant user information, such as movement patterns, height, and respiratory rate. The wireless technology used by the communication device 431 that supports wireless communication may include one or more of the following: SparkLink (or NearLink), wireless local area network (WLAN), Bluetooth, Zigbee, radio frequency identification (RFID), ultra-wideband (UWB) technology, communication technology based on long term evolution (LTE), 5th generation mobile networks (or 5th generation wireless systems, or 5th-Generation, abbreviated as 5G or 5G technology), global system for mobile communications (GSM), general packet radio service (GPRS), or universal mobile telecommunications system (UMTS), etc.
[0262] Screen 432 can display information to the user. Screen 432 includes one or more of the following: physical screens (such as central control screens, passenger screens, rear screens, etc.), projection systems, smart devices, or button panels. Projection systems include, for example, light field screens, head-up displays (HUDs), or other projection systems. Figure 5As shown, a central control screen can be installed on the vehicle's center console. This screen is used to display the vehicle's driving route, showcase vehicle functions, or play audio and video content. Besides the central control screen, other types of screens are also installed in the vehicle, allowing passengers in the front passenger seat and rear seats to interact with the vehicle. This application does not strictly limit the number or location of the screens 432 in the applicable scenario. Taking the application of this application in a vehicle as an example, the screens 432 can be located in front of the front passenger seat, on the headrest (or backrest) of the front seats, on the armrests of the seats, on the doors, or on the roof of the cabin, etc.
[0263] Seat 433 is used for the occupants of vehicle 400. In some designs, seat 433 may have various intelligent components, such as backrest angle adjustment components, ventilation components, seat heating components, seat audio components, seat massage components, etc.
[0264] The speaker 435 can output audio to a user inside the vehicle. For example, the speaker 435 can perform voice announcements and / or sound effects playback, such as indicating the current status of a controlled object and providing feedback on the execution of a vehicle control operation. Alternatively, the speaker can play sound effects, such as playing a "beep" sound, expressing information based on the frequency of the "beep" sound. In some embodiments, the speaker 435 can also be a sound wave emitting device, for example, it can serve as the transmitter of an ultrasonic detection system (such as ultrasonic radar).
[0265] Other peripheral devices can be found in the relevant technical descriptions, and will not be described in detail here.
[0266] In some implementations, such as Figure 4 As shown, the vehicle also includes various subsystems. Among them, the propulsion system 44 includes components that provide power for the movement of the vehicle 400. Exemplarily, the propulsion system 44 may include an engine 441, an energy source 442, a transmission 443, and wheels 444 (or tires). The control system 45 is a system for controlling the vehicle and its components. Exemplarily, the control system 45 may include a steering system 451, an accelerator 452, or a braking unit 453, etc.
[0267] In some embodiments, the vehicle also includes a memory that may contain instructions (e.g., program logic) that can be executed by a processor to perform various functions of the vehicle 400, including those described above. The memory may also contain additional instructions, including instructions to send data to, receive data from, interact with, and / or control one or more of the mobility system 44, sensing system 41, control system 45, and peripheral devices 43. In addition to instructions, the memory may store data such as road maps, route information, vehicle position, direction, speed, and other such vehicle data, as well as other information. This information may be used by the vehicle 400 and / or computing device 42 during operation of the vehicle in autonomous, semi-autonomous, and / or manual modes.
[0268] It should be understood that this application does not limit the type of vehicle. For example, in specific implementations, the vehicle can be a car, a truck, a train, a bus, a van, an electric vehicle, or other different types of vehicles.
[0269] As drivers and passengers (i.e., users) place increasingly higher demands on the comfort of the vehicle's interior environment, some vehicles are equipped with fragrance systems. Fragrances help remove unpleasant odors, making the air inside the car fresher. Suitable scents can also help relieve stress and fatigue, improving mood and enhancing the driving experience. Currently, drivers and passengers generally perceive fragrances through smell, resulting in a relatively singular sensory experience; therefore, the sensory experience of fragrances for drivers and passengers needs improvement.
[0270] In view of this, this application provides a fragrance display method and related device that presents the fragrance in the form of plant images, which helps to improve the visualization of the fragrance, enhance the user's visual perception of the fragrance, and thus improve the user's sensory experience of the fragrance. Furthermore, displaying plant images in the cockpit screen helps to enhance the user's sense of presence and further improves the user experience.
[0271] The methods of the embodiments of this application will be described below.
[0272] For example, this method can be applied to Figure 1 The system shown, for example, is composed of Figure 1 The data processing device 10 in the middle executes the method, or is by Figure 1 The method is performed by a device or apparatus integrating the data processing unit 10 and the display screen 20. Alternatively, by way of example, the method can be applied to a vehicle, for example, to... Figure 4 The vehicle 400 shown is made of Figure 4 The computing device 42 in the middle executes the method.
[0273] For ease of description, the following description uses a processing device as the execution subject of the method. For example, the processing device can be a data processing device 10, or it can be a device or equipment integrating the data processing device 10 and the display screen 20. Alternatively, the processing device can be a computing device 42, or the computing device 42 can include the processing device.
[0274] It should be noted that the following explanation uses the application of the method in a vehicle scenario as an example. When this method is applied to other devices or systems, it can also have similar effects. It should be understood that the names of the method, device, and information can be designed according to the implementation situation, and this application does not strictly limit the names of things.
[0275] Please see Figure 6 , Figure 6 This is a schematic flowchart of a fragrance display method provided in an embodiment of this application. Figure 6 As shown, the fragrance display method may include, but is not limited to, the following steps S601 to S602.
[0276] S601 receives fragrance activation input.
[0277] The fragrance activation input can be used to trigger the activation of a fragrance, or to trigger the display of a fragrance interface, or to trigger the display of a fragrance screen.
[0278] One possible implementation is that the fragrance activation input can include a triggering operation on a fragrance activation control. The fragrance activation control can be used to trigger the activation of the fragrance, or to trigger the display of a fragrance interface, or to trigger the display of a fragrance image. For example, the fragrance activation control is displayed on the vehicle's screen (such as the central control screen), and the user initiates the fragrance activation input by clicking or touching the control; correspondingly, the processing device receives the fragrance activation input. Optionally, the fragrance activation control can be located on the main page (or main interface) of the central control screen, or it can be located on other interfaces displayed on the central control screen (such as the air conditioning interface).
[0279] Another possible implementation is that the fragrance activation input can include a voice command to activate the fragrance. For example, a user initiates the fragrance activation input by uttering the voice command "turn on the fragrance," and the processing device receives the fragrance activation input accordingly.
[0280] It should be understood that the above two implementation methods are merely two examples of how to implement fragrance-activated input, and this application does not impose any restrictions on them.
[0281] S602, in response to the fragrance activation input, displays the fragrance interface and displays the first fragrance screen in the fragrance interface. The first fragrance screen includes the cabin screen and the first screen content corresponding to the first fragrance. The cabin screen is used to represent the cabin of the vehicle. The first screen content is displayed in the cabin screen and includes the first plant.
[0282] The fragrance interface refers to the interface used to display fragrance-related content. Fragrance-related content may include, but is not limited to, fragrance images, fragrance information (such as remaining amount, concentration, and cycle time), and fragrance-related controls.
[0283] The first fragrance display screen can be understood as the visual display of the first fragrance, used to visually present the first fragrance. The first fragrance can be understood as the fragrance activated this time. Optionally, one or more fragrances can be configured in the vehicle. When only one fragrance is configured in the vehicle, the first fragrance is that fragrance. When multiple fragrances are configured in the vehicle, the first fragrance is one of those multiple fragrances. For example, the first fragrance could be the fragrance selected by the user from among the multiple fragrances this time, or it could be the fragrance activated last time, or it could be a preset (or default activated) fragrance. This application does not impose any limitations on this.
[0284] The first fragrance display may include a cabin view and first-screen content. The cabin view can be a view of the interior space of the vehicle. For example, the cabin view may include, but is not limited to, at least one seat in the vehicle (e.g., the driver's seat and the front passenger seat), the steering wheel, the central control screen, and the armrest. The first-screen content refers to the content corresponding to the first fragrance, or it can be understood as content associated with the first fragrance, or it can be understood as content that helps the user better perceive or immerse themselves in the first fragrance.
[0285] Specifically, the first image content can include the first plant, or it can be understood as an image of the first plant. The first plant refers to the plant (or plant group) corresponding to the first fragrance, or it can be understood as a plant associated with the first fragrance, or it can be understood as a plant used to represent the first fragrance. For example, the first plant can be a plant that emits a scent that is the same as or similar to the fragrance of the first fragrance.
[0286] Optionally, the plants used in this application may include, but are not limited to, flowers, grasses, trees, and woods. For example, if the first fragrance is a daisy fragrance, then the first plant may be a daisy. As another example, if the first fragrance is a forest mist fragrance, then the first plant may be a forest mist.
[0287] The first scene can be displayed in the cockpit view, or more specifically, the first plant can be displayed in the cockpit view. This visually presents the fragrance of the first scent spreading throughout the cockpit interior, helping users experience an immersive feeling.
[0288] Optionally, the cockpit view can be a static view. The content of the first view can be static (e.g., the first plant is stationary) or dynamic (e.g., the first plant is swaying). Correspondingly, the first fragrance view can be either static or dynamic. This application does not impose any limitations on this.
[0289] In one possible implementation, the processing device includes a data processing unit and a display screen, which are interconnected. The data processing unit can generate display information (including a fragrance interface, a cabin view, and first-view content) in response to a fragrance activation input, and provide this information to the display screen for display. The fragrance interface is displayed on the display screen, and the fragrance interface displays the first fragrance view (including the cabin view and first-view content). Optionally, the display screen may include, but is not limited to, one or more of a central control screen, a passenger-side screen, and a rear-seat screen.
[0290] Please see Figure 7 , Figure 7 This is a schematic diagram of a first fragrance display provided in an embodiment of this application. For example... Figure 7 As shown, the first fragrance display 700 includes a cabin display 701 and first display content 702. The cabin display 701, exemplified by the front area of the vehicle, includes the driver's seat, passenger seat, steering wheel, central control screen, and armrest. The first display content 702 includes a first plant, illustrated as a flower. The first display content 702 (or the first plant) is displayed in the cabin display 701; for example, the first plant could be displayed around the driver's and passenger seats to create the feeling of being surrounded by a first plant (or a first fragrance).
[0291] In this embodiment of the application, the processing device presents the fragrance as a plant image, which helps to improve the visualization of the fragrance, enhance the user's visual perception of the fragrance, and thus improve the user's sensory experience of the fragrance. Furthermore, displaying the plant image in the cockpit screen helps to enhance the user's sense of presence, further improving the user experience.
[0292] In one possible implementation, the processing device displays a first motion effect in the cockpit screen before displaying the content of the first screen, the first motion effect being presented as the growth of a first plant.
[0293] The first motion effect is used to depict the gradual growth of the first plant. The scene before the first motion effect begins can be a cockpit scene (excluding the content of the first scene), and the scene after the first motion effect ends can be a first fragrance scene (including the content of the first scene). The content of the first scene can also be understood as the scene of the first plant after the first motion effect ends, or as the scene of the first plant fully grown. In other words, the transition from the cockpit scene to the first fragrance scene is a dynamic process, achieved through the motion effect of the first plant gradually growing, thus creating a natural transition from the cockpit scene to the first fragrance scene.
[0294] One possible implementation is that the first motion effect consists of multiple frames of the first plant. The processing device can generate multiple frames of the first plant through real-time rendering and display them sequentially. In the multiple frames of the first plant, the first plant gradually grows, thereby achieving the first motion effect.
[0295] Please see Figure 8 , Figure 8 This is a schematic diagram of a first motion effect provided in an embodiment of this application. Figure 8 Image (a) shows the scene before the first motion effect begins (i.e., cockpit view 701). Figure 8 Images (b), (c), and (d) show exemplary frames (801, 802, 803) of the first motion effect. Figure 8 (e) shows the scene after the first motion effect ends (i.e., the first fragrance scene, including cockpit scene 701 and first scene content 702). The exemplary scenes of the first motion effect (801, 802, 803) show the process of the first plant gradually growing in the cockpit scene. For example... Figure 8 As shown, from the exemplary screen 801 of the first animation to the exemplary screen 803 of the first animation, the first plant undergoes a change in growth state from budding to maturity, the height of the first plant gradually increases, the lushness of the first plant gradually increases, and the area of the first plant gradually increases.
[0296] Through the above implementation method, before displaying the content of the first screen, the processing device displays the animation of the first plant gradually growing in the cockpit screen. Through the animation of the first plant gradually growing, a natural transition is achieved from the cockpit screen (excluding the content of the first screen) to the first fragrance screen (including the content of the first screen). This can improve the visualization effect of the fragrance and enhance the user's visual experience.
[0297] In one possible implementation, the processing device, in response to a fragrance activation input, displays a fragrance interface, which includes a first fragrance control and a cockpit screen. The processing device receives and responds to a first input to the first fragrance control, displaying the content of a first screen on the cockpit screen.
[0298] The first fragrance control refers to the control corresponding to the first fragrance, which can be used to trigger the activation of the first fragrance, or to trigger the display of the first fragrance screen, or to trigger the display of the first screen content corresponding to the first fragrance.
[0299] One possible implementation is that the fragrance interface includes a first area where the cabin view is displayed. The first area can also be understood as a fragrance visualization area, used to display the fragrance image.
[0300] In one possible implementation, the fragrance interface further includes a second area where the first fragrance control is displayed. For example, the second area may display at least one fragrance control, which includes the first fragrance control. Each fragrance control corresponds to a fragrance, and different fragrance controls correspond to different fragrances.
[0301] Optionally, the fragrance interface may also display indication and / or descriptive information for each fragrance. The indication information may include, but is not limited to, fragrance type or fragrance name, while the descriptive information may include, but is not limited to, fragrance scent type or scent characteristics.
[0302] It should be understood that this application does not limit the display method (e.g., position, size, pattern or shape) of the first area, second area, fragrance control, fragrance indication information and fragrance description information in the fragrance interface.
[0303] The first input refers to input directed to the first fragrance control, used to trigger the display of the first fragrance screen, or in other words, to trigger the display of the first screen content. For example, the first input may include a triggering operation on the first fragrance control. One possible implementation is that the user initiates the first input by clicking or touching the first fragrance control on the fragrance interface, and the processing device receives the first input accordingly. In response to the first input, the processing device displays the first screen content on the cockpit screen, thereby displaying the first fragrance screen in a first area of the fragrance interface.
[0304] Optionally, the display method of the first fragrance control differs before and after receiving the first input. The processing device can adjust the display method of the first fragrance control in response to the first input. In this way, the processing device can differentiate the display of the first fragrance control before and after it is triggered, making it easier for the user to distinguish and improving the user experience.
[0305] Below are several examples of different display methods for the first fragrance control:
[0306] Example 1: The display color of the first fragrance control differs before and after receiving the first input. For instance, before receiving the first input, the first fragrance control is displayed in black, and after receiving the first input, it is displayed in red.
[0307] Example 2: The display brightness of the first fragrance control differs before and after receiving the first input. Optionally, the display brightness of the first fragrance control after receiving the first input is greater than the display brightness before receiving the first input. For example, before receiving the first input, the first fragrance control is displayed in grayscale, and after receiving the first input, the first fragrance control is displayed in highlight mode.
[0308] Example 3: The display size of the first fragrance control differs before and after receiving the first input. Optionally, the display size of the first fragrance control after receiving the first input is larger than the display size before receiving the first input. For example, before receiving the first input, the display size of the first fragrance control is a first size; after receiving the first input, the display size of the first fragrance control is a second size, where the second size is larger than the first size.
[0309] It should be understood that the distinguishing display method of the first fragrance control is not limited to the examples above. For example, the display pattern or font of the first fragrance control may be different before and after receiving the first input. Furthermore, several aspects of the display color, brightness, size, pattern, and font of the first fragrance control may differ before and after receiving the first input. This application does not impose any limitations on these aspects.
[0310] Optionally, the display methods of the indication and description information of the first fragrance are different before and after receiving the first input. The processing device can adjust the display methods of the indication and description information of the first fragrance in response to the first input. For details regarding the different display methods of the indication and description information of the first fragrance, please refer to the previous description of the different display methods of the first fragrance control; these will not be repeated here.
[0311] Please see Figure 9A and Figure 9B , Figure 9A and Figure 9B This is a schematic diagram of a fragrance interface provided in an embodiment of this application. Wherein, Figure 9A This is a schematic diagram of a fragrance interface before the first input provided in an embodiment of this application. Figure 9B This is a schematic diagram of a fragrance interface after the first input, provided in an embodiment of this application. For example... Figure 9A As shown, the fragrance interface includes a first area 91 and a second area 92. The first area 91 displays the cockpit view 911, and the second area 92 displays the first fragrance control 921 and the second fragrance control 922. Figure 9B As shown, the fragrance interface includes a first area 91 and a second area 92. The first area 91 displays the cockpit screen 911 and the first screen content 912, and the second area 92 displays the first fragrance control 921 and the second fragrance control 922.
[0312] It should be understood that the embodiments of this application use two fragrance controls as an example for illustration. In other examples, the fragrance interface may include more or fewer fragrance controls. This application does not limit the number of fragrance controls.
[0313] Optionally, the indication information for each fragrance can be displayed on the fragrance control corresponding to that fragrance. In other words, each fragrance control can display the indication information for its corresponding fragrance, making it easy for users to know which fragrance each control corresponds to. For example... Figure 9A and Figure 9B As shown, the first fragrance control 921 also displays the indication information of the first fragrance (denoted as the first indication information 921a), which may be, for example, "pink daisy". The second fragrance control 922 also displays the indication information of the second fragrance (denoted as the second indication information 922a), which may be, for example, "foggy forest oxygen".
[0314] Optionally, the description information for each fragrance can be displayed on the corresponding fragrance control. In other words, each fragrance control can display the description information of its corresponding fragrance, making it convenient for users to know the detailed information of the fragrance associated with each control. For example... Figure 9A and Figure 9B As shown, the first fragrance control 921 also displays the description information of the first fragrance (denoted as the first description information 921b), which may be, for example, "rich daisy notes, fresh and romantic". The second fragrance control 922 also displays the description information of the second fragrance (denoted as the second description information 922b), which may be, for example, "sunny woody notes, sophisticated and cool".
[0315] Optionally, the display method of the information (e.g., first indication information or first description information) on the first fragrance control may differ before and after receiving the first input. The processing device may also adjust the display method of the information on the first fragrance control in response to the first input. For details on the different display methods of the information on the first fragrance control, please refer to the previous description of the different display methods of the first fragrance control; further details will not be repeated here.
[0316] For example, when the user triggers Figure 9A When the first fragrance control 921 is activated, the processing device displays the first screen content 912 on the cockpit screen 911, thus changing the fragrance interface. Figure 9A The fragrance interface shown has switched to Figure 9B The fragrance interface shown. It can be seen that... Figure 9B The content displayed in the first area 91 is the same as Figure 9A The content displayed in the first area 91 is different; specifically, compared to Figure 9A Area 1, 91 Figure 9B The first screen content 912 has been added to the first area 91.
[0317] Figure 9B The display method of the first fragrance control 921 and Figure 9A The first fragrance control 921 is also displayed differently; specifically, Figure 9B The display brightness of the first fragrance control 921 is greater than Figure 9A The display brightness of the first fragrance control 921. In addition, Figure 9B The display brightness of the information (e.g., first indication information 921a, first description information 921b) on the first fragrance control 921 is greater than that of the information displayed on the first fragrance control 921. Figure 9A The display brightness of information (e.g., first indication information 921a, first description information 921b) on the first fragrance control 921.
[0318] Through the above implementation method, the processing device displays the cabin screen and a first fragrance control on the fragrance interface. The user can initiate a first input to the first fragrance control as needed. The processing device receives and responds to the first input, displaying the corresponding first screen content for the first fragrance on the cabin screen. This allows for the display of a fragrance screen that meets the user's needs, improving the user experience.
[0319] In one possible implementation, the processing device activates the first fragrance after receiving the fragrance activation input.
[0320] The processing device activates the first fragrance, which may involve activating a control device for controlling the release of the fragrance (or spraying, or emitting) into the vehicle interior. For example, the control device may include a fan.
[0321] In one possible implementation, a fragrance activation input is used to trigger the activation of a first fragrance, and the processing device can activate the first fragrance upon receiving the fragrance activation input. Optionally, the fragrance activation input includes a voice command for activating the first fragrance. For example, a user initiates the fragrance activation input by uttering the voice command "Activate the first fragrance," and the processing device receives and responds to the fragrance activation input, determines that the fragrance to be activated is the first fragrance, and activates the first fragrance.
[0322] In another possible implementation, the first input is used to trigger the activation of the first fragrance, and the processing device can activate the first fragrance upon receiving the first input. Optionally, the first input includes a triggering operation on the first fragrance control. For example, a user initiates the first input by triggering the first fragrance control on the fragrance interface, and the processing device receives and responds to the first input, determines that the fragrance to be activated is the first fragrance, and activates the first fragrance.
[0323] Optionally, the processing device may activate the first fragrance while displaying the content of the first screen.
[0324] Alternatively, the processing device may activate the first fragrance while displaying the first motion effect.
[0325] Through the above implementation method, after receiving the fragrance activation input, the processing device can not only display the first fragrance screen, but also activate the first fragrance. This allows the release of the fragrance scent and the presentation of the fragrance screen to complement each other, enhancing the user's sensory experience of the fragrance.
[0326] In one possible implementation, the fragrance interface further includes a second fragrance control. The processing device can receive and respond to a second input to the second fragrance control to display a second fragrance screen in the fragrance interface. The second fragrance screen includes a cabin screen and second screen content corresponding to the second fragrance. The second screen content is displayed in the cabin screen and includes a second plant.
[0327] The second fragrance control refers to the control corresponding to the second fragrance, which can be used to trigger the activation of the second fragrance, or to trigger the display of the second fragrance screen, or to trigger the display of the second screen content corresponding to the second fragrance. It should be understood that this application does not limit the display method (e.g., position, size, pattern, or shape) of the second fragrance control in the fragrance interface.
[0328] The second fragrance visual can be understood as the visual representation of the second fragrance, used to visually present the second fragrance. The second fragrance visual can include cabin views and second-view content. Second-view content refers to the visual content corresponding to the second fragrance, or it can be understood as visual content related to the second fragrance, or visual content that helps users better perceive or immerse themselves in the second fragrance.
[0329] Specifically, the second image content can include a second plant, which can also be understood as an image of the second plant. The second plant refers to the plant (or plant group) corresponding to the second fragrance, or it can be understood as a plant associated with the second fragrance, or it can be understood as a plant used to represent the second fragrance. For example, the second plant can be a plant that emits a scent that is the same as or similar to the fragrance of the second fragrance.
[0330] The second visual element can be displayed in the cockpit view, or in other words, the second plant can be displayed in the cockpit view. This visually presents the diffusion of the second fragrance into the cockpit interior, helping users experience a more immersive feeling.
[0331] Optionally, the cockpit view can be a static view. The second view content can be static (e.g., the second plant is stationary) or dynamic (e.g., the second plant is swaying). Correspondingly, the second fragrance view can be static or dynamic. This application does not impose any limitations on this.
[0332] In this application, the second fragrance is different from the first fragrance, and correspondingly, the second fragrance control is different from the first fragrance control, the second plant is different from the first plant, the content of the second screen is different from the content of the first screen, and the second fragrance screen is different from the first fragrance screen.
[0333] Optionally, the cabin view in the second fragrance scene is the same as the cabin view in the first fragrance scene. The difference between the second fragrance scene and the first fragrance scene can be understood as the content of the second scene in the second fragrance scene being different from the content of the first scene in the first fragrance scene.
[0334] The second input refers to input directed to the second fragrance control, used to trigger the display of the second fragrance screen, or in other words, to trigger the display of second screen content. For example, the second input may include a triggering operation on the second fragrance control. One possible implementation is that the user initiates the second input by clicking or touching the second fragrance control on the fragrance interface, and the processing device receives the second input accordingly. In response to the second input, the processing device displays the second screen content on the cockpit screen, thereby displaying the second fragrance screen in the first area of the fragrance interface.
[0335] Optionally, the display method of the second fragrance control differs before and after receiving the second input. The processing device can adjust the display method of the second fragrance control in response to the second input. For details regarding the different display methods of the second fragrance control, please refer to the previous description of the different display methods of the first fragrance control; these will not be repeated here.
[0336] Please see Figure 10 , Figure 10 This is a schematic diagram of a second fragrance display provided in an embodiment of this application. For example... Figure 10 As shown, the second fragrance screen 1000 includes a cockpit screen 701 and a second screen content 1001. The second screen content 1001 includes a second plant, illustratively represented as a "tree". The second screen content 1001 (or the second plant) is displayed in the cockpit screen 701; for example, the second plant may be displayed around the driver's seat and the passenger seat to create the feeling that the user is surrounded by a second plant (or a second fragrance).
[0337] Through the above implementation method, the processing device displays various fragrance controls on the fragrance interface, with different fragrance controls corresponding to different fragrances, allowing users to select or switch fragrances according to their needs. This helps to meet users' diverse fragrance needs and enhances the user experience.
[0338] One possible scenario is that before receiving the second input, the first area of the fragrance interface displays the first fragrance image, or the cockpit screen displays the first image content. After receiving the second input, the first area of the fragrance interface displays the second fragrance image, or the cockpit screen displays the second image content. Therefore, the second input can also be understood as triggering a switch from the first fragrance image to the second fragrance image, or triggering a switch from the first image content to the second image content.
[0339] Optionally, before and after receiving the second input, the display mode of the first fragrance control differs, in addition to the display mode of the second fragrance control. In response to the second input, the processing device adjusts the display mode of both the second and first fragrance controls.
[0340] For example, before receiving the first input, the first fragrance control is displayed in mode 1. After receiving the first input, the display mode of the first fragrance control is changed from mode 1 to mode 2. That is, before receiving the second input, the first fragrance control is displayed in mode 2. After receiving the second input, the display mode of the first fragrance control is changed from mode 2 back to mode 1, that is, it reverts to the display mode before receiving the first input.
[0341] Please see Figure 11A and Figure 11B , Figure 11A This is a schematic diagram of a fragrance interface before the second input provided in an embodiment of this application. Figure 11B This is a schematic diagram of a fragrance interface after a second input, provided in an embodiment of this application. Optionally, Figure 11A The fragrance interface shown before the second input can be compared with... Figure 9B The fragrance interface shown is the same after the first input. Figure 11A As shown, the fragrance interface includes a first area 91 and a second area 92. The first area 91 displays the cockpit screen 911 and the first screen content 912, and the second area 92 displays the first fragrance control 921 and the second fragrance control 922. Figure 11B As shown, the fragrance interface includes a first area 91 and a second area 92. The first area 91 displays the cockpit screen 911 and the second screen content 913, and the second area 92 displays the first fragrance control 921 and the second fragrance control 922.
[0342] For example, when the user triggers Figure 11AWhen the second fragrance control 922 is activated, the processing device cancels the display of the first screen content 912 on the cockpit screen 911 and displays the second screen content 913, thus changing the fragrance interface from... Figure 11A The fragrance interface shown has switched to Figure 11B The fragrance interface shown. It can be seen that... Figure 11B The content displayed in the first area 91 is the same as Figure 11B The content displayed in the first area 91 is different, or rather, Figure 11B The content displayed in the cockpit view of 911 is the same as Figure 11B The content displayed on the cockpit screen of the 911 is different; specifically, Figure 11A The cockpit screen 911 displays the content of the first screen 912. Figure 11B The cockpit view 911 displays the content of the second screen 913.
[0343] Figure 11B The display method of the first fragrance control 921 and Figure 11A The first fragrance control 921 is also displayed differently; specifically, Figure 11B The display brightness of the first fragrance control 921 is less than Figure 11A The display brightness of the first fragrance control 921. In addition, Figure 11B The display brightness of the information on the first fragrance control 921 is less than Figure 11A The brightness of the information displayed on the first fragrance control 921.
[0344] Figure 11B The display method of the second fragrance control 922 is the same as Figure 11A The second fragrance control 922 is also displayed differently; specifically, Figure 11B The display brightness of the second fragrance control 922 is greater than Figure 11A The display brightness of the second fragrance control 922. In addition, Figure 11B The display brightness of the information on the second fragrance control 922 is greater than Figure 11A The brightness of the information displayed on the second fragrance control 922.
[0345] In one possible implementation, during the transition from the first screen content to the second screen content, a second motion effect and a third motion effect are displayed in the cockpit screen. The second motion effect is presented as the first plant gradually disappears, and the third motion effect is presented as the second plant grows.
[0346] The second motion effect is used to depict the gradual disappearance of the first plant. The scene before the second motion effect begins can be the first fragrance scene (including the content of the first scene), and the scene after the second motion effect ends can be the cabin scene (excluding the content of the first scene). The scene after the second motion effect ends can also be understood as the scene where the first plant (or the content of the first scene) completely disappears. In other words, the transition from the first fragrance scene to the cabin scene is a dynamic process, achieved through the motion effect of the first plant gradually disappearing, thus creating a natural transition from the first fragrance scene to the cabin scene.
[0347] One possible implementation is that the second motion effect consists of multiple frames of the first plant. The processing device can generate multiple frames of the first plant through real-time rendering and display them sequentially. The first plant gradually disappears in the multiple frames of the first plant, thereby achieving the second motion effect.
[0348] Optionally, the second motion effect can be the reverse of the first motion effect. For example, assuming the first motion effect includes screens a1, a2, and a3 displayed in sequence, the second motion effect can include screens a3, a2, and a1 displayed in sequence.
[0349] Please see Figure 12 , Figure 12 This is a schematic diagram of a second motion effect provided in an embodiment of this application. Figure 12 Image (a) shows the scene before the second motion effect begins (i.e., the first fragrance scene, including cockpit scene 911 and first scene content 912). Figure 12 Images (b), (c), and (d) show exemplary frames (1201, 1202, 1203) of the second motion effect. Figure 12 Image (e) shows the scene after the second motion effect ends (i.e., cockpit view 911). Exemplary scenes of the second motion effect (1201, 1202, 1203) show the process of the first plant gradually disappearing from the cockpit view. For example... Figure 12 As shown, from the exemplary screen 1201 to the exemplary screen 1203 of the second animation, the first plant undergoes a reverse growth state change from maturity to budding, the height of the first plant gradually decreases, the lushness of the first plant gradually decreases, and the area of the first plant gradually decreases.
[0350] The third motion effect is used to depict the gradual growth of the second plant. The scene before the third motion effect can be the scene after the second motion effect ends (i.e., the cockpit scene, excluding the content of the second scene), and the scene after the third motion effect ends can be the second fragrance scene (including the content of the second scene). The content of the second scene can also be understood as the scene of the second plant after the third motion effect ends, or as the scene of the fully grown second plant. In other words, the transition from the cockpit scene to the second fragrance scene is a dynamic process, achieved through the motion effect of the second plant gradually growing, thus creating a natural transition from the cockpit scene to the second fragrance scene.
[0351] One possible implementation is that the third motion effect consists of multiple frames of the second plant. The processing device can generate multiple frames of the second plant through real-time rendering and display them sequentially. In these multiple frames of the second plant, the second plant gradually grows, thereby achieving the third motion effect.
[0352] Please see Figure 13 , Figure 13 This is a schematic diagram of a third motion effect provided in an embodiment of this application. Figure 13 Image (a) shows the scene before the third motion effect begins (i.e., cockpit view 911). Figure 13 Images (b), (c), and (d) show exemplary frames (1301, 1302, 1303) of the third motion effect. Figure 13 (e) shows the scene after the third motion effect ends (i.e., the second fragrance scene, including cockpit scene 911 and second scene content 913). Exemplary scenes of the third motion effect (1301, 1302, 1303) show the gradual growth of the second plant within the cockpit scene. For example... Figure 13 As shown, from the exemplary screen 1301 of the third animation to the exemplary screen 1303 of the third animation, the second plant undergoes a change in growth state from maturity to budding. The height of the second plant gradually increases, the lushness of the second plant gradually increases, and the area of the second plant gradually increases.
[0353] By combining the second and third animation effects mentioned above, a transition from the first fragrance scene to the second fragrance scene can be achieved. Since the cabin scene in the second fragrance scene is the same as the cabin scene in the first fragrance scene, the transition from the first fragrance scene to the second fragrance scene can also be understood as a transition from the content of the first scene to the content of the second scene.
[0354] Through the above implementation method, during the process of switching from the content of the first screen to the content of the second screen, the processing device sequentially displays the animation effects of the first plant gradually disappearing and the second plant gradually growing in the cockpit screen. By combining the animation effects of the first plant gradually disappearing and the animation effects of the second plant gradually growing, a natural transition from the first fragrance screen (including the content of the first screen) to the second fragrance screen (including the content of the second screen) can be achieved. This can improve the visualization effect of the fragrance and enhance the user's visual experience.
[0355] In one possible implementation, the processing device displays first reserve information in the fragrance interface, the first reserve information indicating the remaining amount of the first fragrance.
[0356] The first remaining amount information refers to the remaining amount information of the first fragrance. Optionally, when the fragrance interface includes multiple fragrance controls (corresponding to multiple fragrances), the processing device can display the remaining amount information of the multiple fragrances in the fragrance interface, with the remaining amount information of each fragrance indicating the remaining amount of that fragrance. Taking the fragrance interface including a first fragrance control and a second fragrance control (i.e., the multiple fragrances include a first fragrance and a second fragrance) as an example, the processing device can display the remaining amount information of the first fragrance (i.e., the first remaining amount information) and the remaining amount information of the second fragrance (denoted as the second remaining amount information) in the fragrance interface. In this way, it is convenient for the user to directly see the remaining amount of the fragrance.
[0357] It should be understood that this application does not limit the way in which the remaining fragrance information is displayed in the fragrance interface (e.g., position, size, pattern or shape).
[0358] For example, the remaining amount information for each fragrance can be displayed on the fragrance control corresponding to that fragrance. For instance, the first remaining amount information can be displayed on the first fragrance control in the fragrance interface. Similarly, the second remaining amount information can be displayed on the second fragrance control in the fragrance interface.
[0359] Optionally, the remaining amount information for each fragrance can be a numerical value (e.g., a percentage). For example, if the initial remaining amount (or total amount) of a fragrance is 100, the corresponding remaining amount information could be 100%. If the remaining amount of a fragrance is 80 after 20% is used, the corresponding remaining amount information could be 80%. If the remaining amount of a fragrance is 60 after 40% is used, the corresponding remaining amount information could be 60%. And so on, until the remaining amount of a fragrance is 0 after it is completely used up, the corresponding remaining amount information could be 0.
[0360] Alternatively, the remaining amount information for each fragrance can be represented by one or more patterns (such as dots, triangles, stars, etc.). For example, the total amount of fragrance can be represented by 5 dots, with each dot representing 20% of the total amount. The initial remaining amount (i.e., total amount) is 100, corresponding to 5 dots, all of which are highlighted. After 20% is used, the remaining amount is 80, also represented by 5 dots, with 4 of them highlighted. After 40% is used, the remaining amount is 60, also represented by 5 dots, with 3 of them highlighted. And so on, until the fragrance is completely used up, at which point the remaining amount is 0, represented by 5 dots, none of which are highlighted. In other words, the highlighted dots represent the remaining amount.
[0361] For example, the highlighted dots are solid dots, and the unhighlighted dots are hollow dots. Alternatively, the size of the highlighted dots is larger than the size of the unhighlighted dots. Or, the brightness of the highlighted dots is greater than the brightness of the unhighlighted dots. This application does not impose any limitations on this.
[0362] Optionally, the display method of the first remaining information differs before and after receiving the first input. The processing device can also adjust the display method of the first remaining information in response to the first input. For details on the different display methods of the first remaining information, please refer to the description of the different display methods of the first fragrance control mentioned earlier; these will not be repeated here.
[0363] Please see Figure 9A and Figure 9B The first fragrance control 921 also displays the remaining amount information of the first fragrance (denoted as first remaining amount information 921c). First remaining amount information 921c is illustrated using four highlighted dots and one non-highlighted dot as an example, indicating that the remaining amount of the first fragrance is 80%. The second fragrance control 922 also displays the remaining amount information of the second fragrance (denoted as second remaining amount information 922c). Second remaining amount information 922c is illustrated using two highlighted dots and three non-highlighted dots as an example, indicating that the remaining amount of the first fragrance is 40%. The brightness of the highlighted dots is greater than the brightness of the non-highlighted dots.
[0364] Figure 9B The display method of the first margin information 921c is the same as Figure 9A The display method of the first margin information 921c is also different. Specifically, Figure 9B The first margin information 921c's display brightness is greater than Figure 9A The first margin information is the display brightness of 921c.
[0365] Optionally, the processing device can adjust the remaining amount information displayed on the fragrance interface based on the activation duration of the first fragrance. The activation duration of the first fragrance can be the duration counted from when the first fragrance is activated, or it can be understood as the usage duration of the first fragrance. The remaining amount of the first fragrance can be related to its activation duration; for example, the longer the activation duration of the first fragrance (i.e., the longer the first fragrance is used), the less remaining amount of the first fragrance will be.
[0366] In one possible implementation, when the remaining amount of the first fragrance is a first margin, the first plant in the first screen content is displayed in a first manner. When the remaining amount of the first fragrance is a second margin, the first plant in the first screen content is displayed in a second manner. The first margin and the second margin are different, and the first manner and the second manner are different.
[0367] The way the first plant is displayed in the first scene can be related to the remaining amount of the first fragrance. Different amounts of fragrance can correspond to different plant display methods. The first method refers to the plant display method corresponding to the first remaining amount, and the second method refers to the plant display method corresponding to the second remaining amount. If the first and second remaining amounts are different, the first method and the second method can also be different.
[0368] In this application, the display method of the first plant may include, but is not limited to, the growth state of the first plant (e.g., budding, flowering, maturity, etc.), growth height, growth density, growth area, or swaying state (e.g., swaying direction, swaying amplitude, swaying frequency, etc.). This is explained uniformly here.
[0369] One possible implementation is to divide the fragrance balance into K balance levels, where K is an integer greater than or equal to 2. Fragrance balance of the same level corresponds to the same plant display method, while different levels correspond to different plant display methods. In one example, taking K=3, the fragrance balance is divided into balance level 1 (representing low balance), balance level 2 (representing medium balance), and balance level 3 (representing high balance). The balance range for balance level 1 can be [0, 20%], the balance range for balance level 2 can be (20%, 40%), and the balance range for balance level 3 can be (40%, 100%). It should be understood that in other examples, the way the fragrance balance is divided (e.g., the number of balance levels and the balance range corresponding to each level) can be other methods, and this application does not limit this.
[0370] Through the above implementation method, the processing device can distinguish and display plant images under different fragrance residue levels, which can further refine and enrich the visualization effect of the fragrance and enhance the user's visual experience.
[0371] In one possible implementation, the height at which the first plant is displayed in a first manner is different from the height at which the first plant is displayed in a second manner.
[0372] In other words, the height of the first plant in the first scene is related to the remaining amount of the first fragrance; different amounts of fragrance can correspond to different plant heights. Here, height refers to the plant's growth height.
[0373] Through the above implementation method, the plant height is related to the fragrance residue, and the processing device can distinguish and display the plant height under different fragrance residues, which can further refine and enrich the visualization effect of the fragrance and enhance the user's visual experience.
[0374] In one possible implementation, if the first margin is greater than the second margin, the height of the first plant when displayed in the first manner is higher than the height of the first plant when displayed in the second manner. If the first margin is less than the second margin, the height of the first plant when displayed in the first manner is lower than the height of the first plant when displayed in the second manner.
[0375] In other words, the height of the first plant in the first scene is positively correlated with the remaining amount of the first fragrance. For example, the greater the remaining amount of the first fragrance, the taller the first plant will be. Conversely, the smaller the remaining amount of the first fragrance, the shorter the first plant will be.
[0376] Please see Figure 14A , Figure 14B and Figure 14C , Figure 14A , Figure 14B and Figure 14C This is a schematic diagram of the fragrance interface under different fragrance residue levels provided in the embodiments of this application. Wherein, Figure 14A This is a schematic diagram of a fragrance interface under a first margin provided in an embodiment of this application. Figure 14B This is a schematic diagram of a fragrance interface under a second margin provided in an embodiment of this application. Figure 14C This is a schematic diagram of a fragrance interface under a third margin provided in an embodiment of this application. Figure 14A , Figure 14B and Figure 14C The fragrance interface shown is illustrated using the display of the first fragrance screen (including cockpit screen 911 and the content of the first screen) as an example. The first margin, second margin, and third margin all represent the remaining amount of the first fragrance.
[0377] like Figure 14A As shown, cockpit screen 911 displays the first screen content 1401, with a first margin of 20%. (As...) Figure 14B As shown, cockpit screen 911 displays the first screen content 1402, with a second margin of 40%. (As...) Figure 14CAs shown, the cockpit screen 911 displays the first screen content 1403, and the third margin is 80%. The first margin, the second margin, and the third margin increase in sequence, and correspondingly, the plant heights in the first screen content 1401, the first screen content 1402, and the first screen content 1403 increase in sequence.
[0378] Through the above implementation method, the plant height is positively correlated with the residual fragrance. The processing device can distinguish and display the plant height under different residual fragrance levels, which can further refine and enrich the visualization effect of the fragrance and enhance the user's visual experience.
[0379] In one possible implementation, during the transition from displaying the first plant in a first mode to displaying it in a second mode, the processing device displays a motion effect showing a gradual change in the height of the first plant on the cockpit screen. This will be explained in two scenarios below.
[0380] In scenario one, the first margin is greater than the second margin. During the process of the first plant switching from displaying in the first mode to displaying in the second mode, the processing device displays a fourth motion effect on the cockpit screen. The fourth motion effect is presented by the height of the first plant gradually decreasing.
[0381] The fourth animation effect depicts the gradual decrease in the height of the first plant. The screen before the fourth animation effect begins is designated as First Fragrance Screen #1, where the first plant is displayed in the first mode at its first height. The screen after the second animation effect ends is designated as First Fragrance Screen #2, where the first plant is displayed in the second mode at its second height, which is less than the first height. The process of the first plant switching from the first mode to the second mode can also be understood as the transition from First Fragrance Screen #1 to First Fragrance Screen #2. The transition from First Fragrance Screen #1 to First Fragrance Screen #2 is a dynamic process, achieved through the animation effect of the first plant's gradually decreasing height, creating a natural transition from First Fragrance Screen #1 to First Fragrance Screen #2.
[0382] One possible implementation is that the fourth motion effect consists of multiple frames of the first plant. The processing device can generate multiple frames of the first plant through real-time rendering and display them sequentially. The height of the first plant decreases sequentially in the multiple frames of the first plant, thereby realizing the fourth motion effect.
[0383] In scenario two, if the first margin is less than the second margin, during the process of switching the first plant from displaying in the first mode to displaying in the second mode, the fifth motion effect is displayed in the cockpit screen. The fifth motion effect is presented by the height of the first plant gradually increasing.
[0384] The fifth animation effect depicts the gradual increase in the height of the first plant. The scene before the fifth animation effect begins is designated as First Fragrance Scene #3, where the first plant is displayed in the first mode, at its first height. The scene after the second animation effect ends is also designated as First Fragrance Scene #3, where the first plant is displayed in the second mode, at its second height, which is greater than the first height. The transition from displaying the first plant in the first mode to displaying it in the second mode can also be understood as the transition from First Fragrance Scene #3 to First Fragrance Scene #4. The transition from First Fragrance Scene #3 to First Fragrance Scene #4 is a dynamic process, achieved through the animation of the first plant's gradually increasing height, creating a natural transition from First Fragrance Scene #3 to First Fragrance Scene #4.
[0385] One possible implementation is that the fifth animation consists of multiple frames of the first plant. The processing device can generate multiple frames of the first plant through real-time rendering and display them sequentially. The height of the first plant in the multiple frames increases sequentially, thereby achieving the fifth animation.
[0386] Optionally, the fifth motion effect can be the reverse of the fourth motion effect. For example, assuming the fourth motion effect includes the sequentially displayed screens b1, b2, and b3, the second motion effect can include the sequentially displayed screens b3, b2, and b1.
[0387] Through the above implementation method, during the process of switching the display of the first plant from the first mode to the second mode, the processing device displays a dynamic effect of the gradual change in the height of the first plant on the cockpit screen, realizing a natural transition between different fragrance screens (where the height of the first plant is different), which can improve the visualization effect of the fragrance and enhance the user's visual experience.
[0388] In one possible implementation, the processing device displays first concentration information in the fragrance interface, the first concentration information being used to indicate the concentration of the first fragrance.
[0389] The first concentration information refers to the concentration information of the first fragrance. Optionally, when the fragrance interface includes multiple fragrance controls (corresponding to multiple fragrances), the processing device can display the concentration information of the multiple fragrances in the fragrance interface, with the concentration information of each fragrance indicating the concentration of that fragrance. Here, concentration refers to the release concentration of the fragrance. Taking the fragrance interface including a first fragrance control and a second fragrance control (i.e., the multiple fragrances include a first fragrance and a second fragrance) as an example, the processing device can display the concentration information of the first fragrance (i.e., the first concentration information) and the concentration information of the second fragrance (denoted as the second concentration information) in the fragrance interface. In this way, it is convenient for the user to directly see the fragrance concentration.
[0390] Optionally, the fragrance interface may display only one concentration information. For example, when displaying a first fragrance image, the concentration information represents the first concentration; similarly, when displaying a second fragrance image, the concentration information represents the second concentration. It should be understood that this application does not limit the way the fragrance concentration information is displayed in the fragrance interface (e.g., position, size, pattern, or shape).
[0391] Optionally, the fragrance concentration information can be numerical. For example, a higher number indicates a higher concentration, and a lower number indicates a lower concentration. Alternatively, the fragrance concentration information can be in the form of concentration levels. For example, concentration levels can include, but are not limited to, high concentration, medium concentration, and low concentration.
[0392] Optionally, the display method of the first concentration information differs before and after receiving the first input. The processing device can also adjust the display method of the first concentration information in response to the first input. For details on the different display methods of the first concentration information, please refer to the description of the different display methods of the first fragrance control mentioned earlier; these will not be repeated here.
[0393] In one possible implementation, the fragrance interface includes a concentration control, and the processing device receives and responds to a third input to the concentration control to adjust the concentration of the first fragrance from a first concentration to a second concentration.
[0394] The concentration control can be used to adjust the fragrance concentration, such as increasing or decreasing the fragrance concentration. It should be understood that this application does not limit the display method (e.g., position, size, pattern, or shape) of the concentration control in the fragrance interface.
[0395] Optionally, the concentration control includes a first concentration control and a second concentration control, wherein the first concentration control is used to increase the fragrance concentration and the second concentration control is used to decrease the fragrance concentration.
[0396] Optionally, the display method of the concentration control differs before and after receiving the first input. The processing device can also adjust the display method of the concentration control in response to the first input. For details on the different display methods of the concentration control, please refer to the description of the different display methods of the first fragrance control mentioned earlier; these will not be repeated here.
[0397] The third input refers to input to the concentration control, used to trigger an adjustment of the fragrance concentration. For example, the third input may include a triggering operation on the concentration control. One possible implementation is that the user initiates the third input by clicking or touching the concentration control on the fragrance interface, and the processing device receives the third input accordingly. The processing device then adjusts the fragrance concentration in response to the third input.
[0398] Optionally, the processing device can adjust the fragrance concentration by adjusting the airflow speed of the fan (used to release the fragrance). For example, the processing device can increase the fragrance concentration by increasing the fan speed. Conversely, the processing device can decrease the fragrance concentration by decreasing the fan speed.
[0399] Through the above implementation method, the processing device displays a concentration control on the fragrance interface. Users can initiate a third input to the concentration control as needed. The processing device receives and responds to this third input, adjusting the fragrance concentration accordingly. This satisfies users' needs for fragrance concentration and enhances the user experience.
[0400] For example, fragrance concentration information can be displayed on the concentration control. See also Figure 9A and Figure 9B The second area 92 also displays a concentration control 923, which is illustrated as an example including an equilateral triangle control (for increasing fragrance concentration) and an inverted triangle control (for decreasing fragrance concentration). The concentration control 923 also displays the concentration information of the first fragrance (denoted as concentration information 923a), which is illustrated as the value "3".
[0401] Figure 9B The display method of the concentration control 923 is the same as Figure 9A The concentration control 923 is displayed differently; specifically, Figure 9B The brightness of the concentration control 923 is greater than Figure 9A The brightness of the display is controlled by the concentration control 923. In addition, Figure 9B The concentration information of 923a has a display brightness greater than Figure 9A The concentration information and display brightness of 923a.
[0402] In one possible implementation, when the concentration of the first fragrance is a first concentration, the first plant in the first screen content is displayed in a third manner. When the concentration of the first fragrance is a second concentration, the first plant in the first screen content is displayed in a fourth manner. The first concentration is different from the second concentration, and the third manner is different from the fourth manner.
[0403] The way the first plant is displayed in the first screen can be related to the concentration of the first fragrance; different fragrance concentrations can correspond to different plant display methods. The third method refers to the plant display method corresponding to the first concentration, and the fourth method refers to the plant display method corresponding to the second concentration. If the first and second concentrations are different, the third and fourth methods can also be different.
[0404] One possible implementation is to divide the fragrance concentration into K concentration levels, where K is an integer greater than or equal to 2. Fragrance concentrations of the same level correspond to the same plant display method, while different fragrance concentration levels correspond to different plant display methods. In one example, taking K=3, the fragrance concentration is divided into concentration level 1 (representing low concentration), concentration level 2 (representing medium concentration), and concentration level 3 (representing high concentration). The concentration value corresponding to concentration level 1 can be 1, the concentration value corresponding to concentration level 2 can be 2, and the concentration value corresponding to concentration level 3 can be 3. It should be understood that in other examples, the way the fragrance concentration is divided (e.g., the number of concentration levels and the concentration value corresponding to each concentration level) can be other ways, and this application does not limit this.
[0405] Through the above implementation method, the processing device can distinguish and display plant images under different fragrance concentrations, which can further refine and enrich the visualization effect of fragrance and enhance the user's visual experience.
[0406] In one possible implementation, the degree of lushness of the first plant when displayed in a third manner is different from the degree of lushness of the first plant when displayed in a fourth manner.
[0407] In other words, the lushness of the first plant in the first scene is related to the concentration of the first fragrance; different fragrance concentrations correspond to different degrees of lushness. Lushness here can also be understood as the density of the plants. For example, the greater the lushness, the denser the plant. Conversely, the less lush the plant, the sparser it is.
[0408] Through the above implementation method, the lushness of plants is related to the concentration of fragrance. The processing device can distinguish and display the lushness of plants under different fragrance concentrations, which can further refine and enrich the visualization effect of fragrance and enhance the user's visual experience.
[0409] In one possible implementation, if the first concentration is greater than the second concentration, the lushness of the first plant when displayed in the third manner is greater than the lushness of the first plant when displayed in the fourth manner. If the first concentration is less than the second concentration, the lushness of the first plant when displayed in the third manner is less than the lushness of the first plant when displayed in the fourth manner.
[0410] In other words, the lushness of the first plant in the first scene is positively correlated with the concentration of the first fragrance. For example, the higher the concentration of the first fragrance, the more lush the first plant will be. Conversely, the lower the concentration of the first fragrance, the less lush the first plant will be.
[0411] Please see Figure 15A , Figure 15B and Figure 15C, Figure 15A , Figure 15B and Figure 15C This is a schematic diagram of the fragrance interface at different fragrance concentrations provided in the embodiments of this application. Figure 15A This is a schematic diagram of a fragrance interface at a first concentration provided in an embodiment of this application. Figure 15B This is a schematic diagram of a fragrance interface at a second concentration provided in an embodiment of this application. Figure 15C This is a schematic diagram of a fragrance interface at a third concentration provided in an embodiment of this application. Figure 15A , Figure 15B and Figure 15C The fragrance interface shown is illustrated using the display of the first fragrance screen (including cockpit screen 911 and the content of the first screen) as an example. The first concentration, second concentration and third concentration all represent the concentration of the first fragrance.
[0412] like Figure 15A As shown, cockpit screen 911 displays the first screen content 1501, with a first concentration of "1" (indicating low concentration). For example... Figure 15B As shown, cockpit screen 911 displays the first screen content 1502, and the second concentration is "2" (indicating medium concentration). For example... Figure 15C As shown, the cockpit screen 911 displays the first screen content 1503, and the third concentration is "3" (indicating high concentration). The first concentration, second concentration, and third concentration increase sequentially, and correspondingly, the lushness of the plants in the first screen content 1501, first screen content 1502, and first screen content 1503 increase sequentially.
[0413] Through the above implementation method, the degree of plant lushness is positively correlated with the fragrance concentration. The processing device can distinguish and display the degree of plant lushness under different fragrance concentrations, which can further refine and enrich the visualization effect of the fragrance and enhance the user's visual experience.
[0414] In one possible implementation, during the transition from displaying the first plant in a third mode to displaying it in a fourth mode, the processing device displays a dynamic effect showing a gradual change in the lushness of the first plant on the cockpit screen. This will be explained in two scenarios below.
[0415] In scenario one, the first concentration is greater than the second concentration. During the process of switching the first plant from displaying it in the third mode to displaying it in the fourth mode, the processing device displays a sixth motion effect on the cockpit screen. The sixth motion effect is presented by the gradual decrease in the lushness of the first plant.
[0416] The sixth animation effect depicts the gradual decrease in the lushness of the first plant. The scene before the sixth animation effect begins is designated as First Fragrance Scene #5, where the first plant is displayed in the third mode, and its lushness level is at its first lushness level. The scene after the sixth animation effect ends is designated as First Fragrance Scene #6, where the first plant is displayed in the fourth mode, and its lushness level is at its second lushness level, which is less than the first lushness level. The process of the first plant switching from the third mode to the fourth mode can also be understood as the transition from First Fragrance Scene #5 to First Fragrance Scene #6. The transition from First Fragrance Scene #5 to First Fragrance Scene #6 is a dynamic process, achieved through the animation effect of the first plant's lushness gradually decreasing, creating a natural transition from First Fragrance Scene #5 to First Fragrance Scene #6.
[0417] One possible implementation is that the sixth animation consists of multiple frames of the first plant. The processing device can generate multiple frames of the first plant through real-time rendering and display them sequentially. The lushness of the first plant in the multiple frames decreases sequentially, thereby achieving the sixth animation.
[0418] In scenario two, if the first concentration is less than the second concentration, during the process of switching the first plant from being displayed in the third mode to being displayed in the fourth mode, the processing device displays a seventh motion effect on the cockpit screen. The seventh motion effect is presented by the gradual increase in the lushness of the first plant.
[0419] The seventh animation effect is used to depict the gradual increase in the lushness of the first plant. The scene before the seventh animation effect begins is designated as First Fragrance Scene #7, where the first plant is displayed in the third mode, and its lushness level is at the first level. The scene after the seventh animation effect ends is designated as First Fragrance Scene #8, where the first plant is displayed in the fourth mode, and its lushness level is at the second level, which is greater than the first. The process of the first plant switching from the third mode to the fourth mode can also be understood as the transition from First Fragrance Scene #7 to First Fragrance Scene #8. The transition from First Fragrance Scene #7 to First Fragrance Scene #8 is a dynamic process, achieved through the animation effect of the first plant's gradually increasing lushness, resulting in a natural transition from First Fragrance Scene #7 to First Fragrance Scene #8.
[0420] One possible implementation is that the seventh animation consists of multiple frames of the first plant. The processing device can generate multiple frames of the first plant through real-time rendering and display them sequentially. The lushness of the first plant in the multiple frames increases sequentially, thereby realizing the seventh animation.
[0421] Optionally, the seventh motion effect can be the reverse of the sixth motion effect. For example, assuming the sixth motion effect includes screens c1, c2, and c3 displayed in sequence, the seventh motion effect can include screens c3, c2, and c1 displayed in sequence.
[0422] Through the above implementation method, during the process of switching the first plant from being displayed in the third mode to being displayed in the fourth mode, the processing device displays a dynamic effect on the cockpit screen that shows the gradual change in the lushness of the first plant, thereby achieving a natural transition between different fragrance scenes (in which the lushness of the first plant is different), which can improve the visualization effect of the fragrance and enhance the user's visual experience.
[0423] In one possible implementation, the processing device displays first time information in the fragrance interface, the first time information being used to indicate the cycle time of the first fragrance.
[0424] The first time information refers to the time information of the first fragrance. Optionally, when the fragrance interface includes multiple fragrance controls (corresponding to multiple fragrances), the processing device can display the time information of these multiple fragrances in the fragrance interface, with the time information of each fragrance indicating its cycle time. The cycle time here includes the time for the fragrance to release its scent and the time for the scent release to pause. Taking a fragrance interface including a first fragrance control and a second fragrance control (i.e., the multiple fragrances include both a first fragrance and a second fragrance) as an example, the processing device can display the time information of the first fragrance (i.e., the first time information) and the time information of the second fragrance (denoted as the second time information) in the fragrance interface. This allows the user to directly see the fragrance's cycle time.
[0425] Optionally, the fragrance interface may display only one time information. For example, when displaying the first fragrance image, the time information represents the first time information; similarly, when displaying the second fragrance image, the time information represents the second time information. It should be understood that this application does not limit the way the fragrance time information is displayed in the fragrance interface (e.g., position, size, pattern, or shape).
[0426] Optionally, the fragrance's time information can be numerical. For example, a higher number indicates a longer cycle time, and a lower number indicates a shorter cycle time.
[0427] Optionally, the display method of the first-time information differs before and after receiving the first input. The processing device can also adjust the display method of the first-time information in response to the first input. For details on the different display methods of the first-time information, please refer to the description of the different display methods of the first fragrance control mentioned earlier; these will not be repeated here.
[0428] In one possible implementation, the fragrance interface includes a time control, and the processing device receives and responds to a fourth input to the time control to adjust the cycle time of the first fragrance from a first cycle time to a second cycle time.
[0429] The time control can be used to adjust the fragrance cycle time, for example, by increasing or decreasing the fragrance cycle time. It should be understood that this application does not limit the display method of the time control in the fragrance interface (e.g., position, size, pattern, or shape).
[0430] Optionally, the time control includes a first time control and a second time control, wherein the first concentration control is used to increase the fragrance cycle time and the second time control is used to decrease the fragrance cycle time.
[0431] Optionally, the display method of the time control differs before and after receiving the first input. The processing device can also adjust the display method of the time control in response to the first input. For details on the different display methods of the time control, please refer to the description of the different display methods of the first fragrance control mentioned earlier; these will not be repeated here.
[0432] The fourth input refers to input to the time control, used to trigger an adjustment of the fragrance cycle time. For example, the fourth input may include a triggering action on the time control. One possible implementation is that the user initiates the fourth input by clicking or touching the time control on the fragrance interface, and the processing device receives the fourth input accordingly. In response to the fourth input, the processing device adjusts the fragrance cycle time.
[0433] Optionally, the processing device can adjust the fragrance circulation time by adjusting the start and stop times of the fan (used to release the fragrance). For example, the processing device can increase the fragrance circulation time by increasing at least one of the fan's on and off times. Alternatively, the processing device can decrease the fragrance circulation time by decreasing at least one of the fan's on and off times.
[0434] Through the above implementation method, the processing device displays a time control on the fragrance interface. Users can initiate a fourth input to the time control as needed. The processing device receives and responds to this fourth input, adjusting the fragrance cycle time. This satisfies users' needs regarding fragrance cycle time and enhances the user experience.
[0435] For example, the fragrance's timing information can be displayed on a timing control. See also... Figure 9A and Figure 9BThe second area 92 also displays a time control 924, which is illustrated as an example including an equilateral triangle control (for increasing the fragrance cycle time) and an inverted triangle control (for decreasing the fragrance cycle time). The time control 924 also displays the time information of the first fragrance (denoted as time information 924a), which is illustrated as "5 min".
[0436] Figure 9B The display method of the time control 924 and Figure 9A The display method of the time control 924 is different, specifically, Figure 9B The display brightness of the time control 924 is greater than Figure 9A The time control displays a brightness of 924. Additionally, Figure 9B The time information 924a's display brightness is greater than Figure 9A The time information and display brightness of 924a.
[0437] In one possible implementation, the circulation time of the first fragrance includes a first time period and a second time period, wherein the first fragrance is released during the first time period and is not released during the second time period.
[0438] The first time period refers to the period during which the first fragrance is released (i.e., the first fragrance releases its scent), and the second time period refers to the period during which the first fragrance is not released (i.e., the first fragrance does not release its scent, or the release of its scent is paused).
[0439] For example, taking a fragrance circulation time of 5 minutes as an example, the first time period can be the first 2 minutes of those 5 minutes, and the second time period can be the last 3 minutes of those 5 minutes. The processing device can control the fan (used to release the fragrance) to alternately perform the following steps: on for 2 minutes - off for 3 minutes, to achieve the above fragrance circulation time.
[0440] Through the above implementation method, the processing device can control the fragrance to be released for a period of time and then paused for a period of time, thereby allowing the fragrance to be released intermittently. This avoids the situation where users become accustomed to the fragrance after being in a continuous fragrance environment, which may lead to a loss of noticeable fragrance perception. This helps to improve the user's perception of the fragrance and enhances the user experience.
[0441] In one possible implementation, the fragrance interface includes a switch control, and the processing device receives and responds to a fifth input to the switch control to turn off the first fragrance and cancel the display of the first screen content in the cockpit screen.
[0442] The switch control can be used to turn off the fragrance, or to cancel the display of plant images, or to cancel the display of the fragrance image, or to close the fragrance interface. It should be understood that this application does not limit the display method (e.g., position, size, pattern, or shape) of the switch control within the fragrance interface.
[0443] Optionally, the display method of the switch control differs before and after receiving the first input. The processing device can also adjust the display method of the switch control in response to the first input. For details on the different display methods of the switch control, please refer to the description of the different display methods of the first fragrance control mentioned earlier; these will not be repeated here.
[0444] The fifth input refers to an input to the switch control, used to trigger the closure of the fragrance, or to trigger the cancellation of the display of the fragrance-related screen content, or to trigger the cancellation of the fragrance screen display. For example, the fifth input may include a trigger operation on the switch control. In one possible implementation, the user initiates the fifth input by clicking or touching the switch control on the fragrance interface; accordingly, the processing device receives the fifth input. In response to the fifth input, the processing device closes the first fragrance and cancels the display of the first screen content on the cabin screen.
[0445] Optionally, the display modes of the first fragrance control, concentration control, time control, and switch control are different before and after receiving the fifth input. In response to the fifth input, the processing device can adjust the display modes of the first fragrance control, concentration control, time control, and switch control. For example, the display modes of the first fragrance control, concentration control, time control, and switch control can be adjusted to the display modes of the first fragrance control, concentration control, time control, and switch control before receiving the first input.
[0446] Alternatively, the processing device can shut down the first fragrance by turning off the fan (used to release the fragrance), thereby stopping the first fragrance from releasing its scent.
[0447] Please see Figure 9A and Figure 9B The second area 92 also displays the switch control 925. Figure 9B The display method of the switch control 925 and Figure 9A The display method of the switch control 925 is different. Specifically, Figure 9B The display brightness of the 925 switch control is greater than Figure 9A The display brightness is controlled by the 925 switch.
[0448] For example, when the user triggers Figure 9B When the switch control 925 is activated, the processing device cancels the display of the first screen content 912 in the cockpit screen 911, thereby changing the fragrance interface. Figure 9B The fragrance interface shown has switched to Figure 9AThe fragrance interface shown. It can be seen that... Figure 9A The content displayed in the first area 91 is the same as Figure 9B The content displayed in the first area 91 is different; specifically, compared to Figure 9B Area 1, 91 Figure 9A The first area 91 has reduced the content of the first screen.
[0449] Figure 9A The display method of the first fragrance control 921 and Figure 9B The first fragrance control 921 is also displayed differently; specifically, Figure 9A The display brightness of the first fragrance control 921 is less than Figure 9B The display brightness of the first fragrance control 921. Figure 9A The display method of the concentration control 923 is the same as Figure 9B The concentration control 923 is also displayed differently; specifically, Figure 9A The brightness of the concentration control 923 is less than Figure 9B The concentration control 923 displays the brightness. Figure 9A The display method of the time control 924 and Figure 9B The display method of the time control 924 is also different, specifically, Figure 9A The display brightness of the time control 924 is less than Figure 9B The time control displays a brightness of 924. Figure 9A The display method of the switch control 925 and Figure 9B The display method of the switch control 925 is also different, specifically, Figure 9A The display brightness of the 925 switch control is less than Figure 9B The display brightness is controlled by the 925 switch.
[0450] Through the above implementation method, the processing device displays a switch control on the fragrance interface, which makes it convenient for users to turn off the fragrance by switching the control, thus improving the user experience.
[0451] In another possible implementation, the processing device receives and responds to the fragrance-off input, turns off the first fragrance, and cancels the display of the first screen content in the cockpit screen.
[0452] The fragrance-off input can be used to trigger the closure of the fragrance, or to trigger the cancellation of the display of plant images, or to trigger the cancellation of the fragrance image, or to trigger the closure of the fragrance interface. For example, the fragrance-off input can include a voice command to close the fragrance. For instance, a user initiates the fragrance-off input by uttering the voice command "Close the fragrance," and the processing device receives the fragrance-off input accordingly.
[0453] In one possible implementation, the processing device displays an eighth motion effect on the cockpit screen before canceling the display of the first screen content. The eighth motion effect is presented in the manner in which the first plant gradually disappears.
[0454] The eighth animation effect is used to depict the gradual disappearance of the first plant. The scene before the eighth animation effect can be the first fragrance scene (including the content of the first scene), and the scene after the eighth animation effect can be the cabin scene (excluding the content of the first scene). The scene after the eighth animation effect can also be understood as the scene where the first plant (or the content of the first scene) completely disappears. In other words, the transition from the first fragrance scene to the cabin scene is a dynamic process, achieved through the animation effect of the first plant gradually disappearing, thus creating a natural transition from the first fragrance scene to the cabin scene.
[0455] One possible implementation is that the eighth animation consists of multiple frames of the first plant. The processing device can generate multiple frames of the first plant through real-time rendering and display them sequentially. The first plant gradually disappears in the multiple frames of the first plant, thereby achieving the eighth animation.
[0456] Optionally, the eighth motion effect can be the reverse of the first motion effect. For example, assuming the first motion effect includes screens a1, a2, and a3 displayed in sequence, the eighth motion effect can include screens a3, a2, and a1 displayed in sequence.
[0457] Alternatively, the eighth motion effect can be the same as the second motion effect. For a description of the eighth motion effect, please refer to the description of the second motion effect above; it will not be repeated here.
[0458] Through the above implementation method, before canceling the display of the first screen content, the processing device displays the animation effect of the first plant gradually disappearing in the cockpit screen. Through the animation effect of the first plant gradually disappearing, a natural transition is achieved from the first fragrance screen (including the first screen content) to the cockpit screen (excluding the first screen content). This can improve the visualization effect of the fragrance and enhance the user's visual experience.
[0459] In one possible implementation, when the diffusion duration of the first fragrance is a first duration, the first plant in the first screen content is displayed in a fifth manner. When the diffusion duration of the first fragrance is a second duration, the first plant in the first screen content is displayed in a sixth manner. The diffusion duration of the first fragrance is the duration counted from when the first fragrance is activated; the first duration differs from the second duration, and the fifth manner differs from the sixth manner.
[0460] Optionally, the processing device can start timing from the moment the first fragrance is activated, and determine the duration of the timing as the diffusion duration of the first fragrance.
[0461] The diffusion range of a fragrance can be related to both its diffusion duration and concentration. For example, with the same fragrance concentration, a longer diffusion duration generally results in a larger diffusion range, while a shorter diffusion duration generally results in a smaller diffusion range. Similarly, with the same diffusion duration, a higher fragrance concentration generally results in a larger diffusion range, while a lower fragrance concentration generally results in a smaller diffusion range. Therefore, the diffusion range of a fragrance can be determined by combining both diffusion duration and fragrance concentration.
[0462] One possible implementation involves pre-setting the correspondence between fragrance diffusion range, diffusion duration, and fragrance concentration. For example, the fragrance diffusion range can be divided into diffusion range level 1 (representing a small range, denoted as R1), diffusion range level 2 (representing a medium range, denoted as R2), and diffusion range level 3 (representing a large range, denoted as R3). For instance, at a high fragrance concentration, the diffusion duration (denoted as T) satisfies the following conditions: T < T1 corresponds to R1, T1 ≤ T < T2 corresponds to R2, T ≥ T2 corresponds to R3, and T2 > T1. Similarly, at a medium fragrance concentration, T < T3 corresponds to R1, T3 ≤ T < T4 corresponds to R2, T ≥ T4 corresponds to R3, and T4 > T3. And again, at a low fragrance concentration, T < T5 corresponds to R1, T5 ≤ T < T6 corresponds to R2, T ≥ T6 corresponds to R3, and T6 > T5. Where T1 < T3 < T5, T2 < T4 < T6. It should be understood that in other examples, the way the fragrance diffusion range is divided (e.g., the number of diffusion range levels, and the fragrance diffusion duration corresponding to each diffusion range level at different fragrance concentrations, etc.) can be other ways, and this application does not limit this.
[0463] The display method of the first plant in the first screen can be related to the diffusion range of the first fragrance. The diffusion range of the first fragrance can be determined based on its diffusion duration (for example, the diffusion range of the first fragrance increases as the diffusion duration increases). Therefore, the display method of the first plant in the first screen can also be related to the diffusion duration of the first fragrance. Different fragrance diffusion durations can correspond to different plant display methods. The fifth method refers to the plant display method corresponding to the first duration, and the sixth method refers to the plant display method corresponding to the second duration. If the first duration and the second duration are different, the fifth method and the sixth method can also be different.
[0464] Through the above implementation method, the processing device can distinguish and display plant images under different fragrance diffusion durations (or different fragrance diffusion ranges), which can further refine and enrich the visualization effect of fragrance and enhance the user's visual experience.
[0465] In one possible implementation, the screen size occupied by the first plant when displayed in the fifth manner is different from the screen size occupied by the first plant when displayed in the sixth manner.
[0466] The screen size occupied by the first plant represents its area. In other words, the area of the first plant in the first frame is related to the diffusion duration of the first fragrance; different fragrance diffusion durations correspond to different plant areas. Here, area refers to the plant's growing area.
[0467] Through the above implementation method, the plant area is related to the fragrance diffusion time. The processing device can distinguish and display the plant area under different fragrance diffusion times, which can further refine and enrich the visualization effect of the fragrance and enhance the user's visual experience.
[0468] In one possible implementation, if the first duration is longer than the second duration, the screen size occupied by the first plant when displayed in the fifth mode is greater than the screen size occupied by the first plant when displayed in the sixth mode. If the first duration is shorter than the second duration, the screen size occupied by the first plant when displayed in the fifth mode is smaller than the screen size occupied by the first plant when displayed in the sixth mode.
[0469] In other words, the area of the first plant in the first scene is positively correlated with the diffusion time of the first fragrance. For example, the longer the diffusion time of the first fragrance, the larger the area of the first plant. Conversely, the shorter the diffusion time of the first fragrance, the smaller the area of the first plant.
[0470] Please see Figure 16A , Figure 16B and Figure 16C , Figure 16A , Figure 16B and Figure 16C This is a schematic diagram of the fragrance interface under different fragrance diffusion times provided in the embodiments of this application. Wherein, Figure 16A This is a schematic diagram of a fragrance interface under a first duration provided in an embodiment of this application. Figure 16B This is a schematic diagram of a fragrance interface under a second duration provided in an embodiment of this application. Figure 16C This is a schematic diagram of a fragrance interface under a third duration provided in an embodiment of this application. Figure 16A , Figure 16B and Figure 16C The fragrance interface shown is illustrated by displaying the first fragrance screen (including the cockpit screen 911 and the content of the first screen) as an example. The first duration (denoted as t1), the second duration (denoted as t2), and the third duration (denoted as t3) all represent the diffusion duration of the first fragrance.
[0471] like Figure 16AAs shown, cockpit screen 911 displays the first screen content 1601. (As...) Figure 16B As shown, cockpit screen 911 displays the first screen content 1602. (As...) Figure 16C As shown, the cockpit screen 911 displays the first screen content 1603. The first duration t1, the second duration t2, and the third duration t3 increase sequentially, and correspondingly, the plant area in the first screen content 1601, the first screen content 1602, and the first screen content 1603 increases sequentially. Specifically, the first plant starts to spread from the central control screen in the cockpit screen, and the spreading distance (e.g., the farthest distance between the first plant and the central control screen) increases sequentially, thus increasing the plant area sequentially.
[0472] Through the above implementation method, the plant area is positively correlated with the fragrance diffusion time. The processing device can distinguish and display the plant area under different fragrance diffusion times, which can further refine and enrich the visualization effect of the fragrance and enhance the user's visual experience.
[0473] In one possible implementation, during the process of switching from displaying the first plant in a fifth mode to displaying it in a sixth mode, the processing device displays a motion effect in the cockpit screen showing a gradual change in the screen size occupied by the first plant.
[0474] For example, when the first duration is less than the second duration, during the process of the first plant switching from being displayed in the fifth mode to being displayed in the sixth mode, a ninth motion effect is displayed on the cockpit screen, and the ninth motion effect is presented in a way that the screen size occupied by the first plant gradually increases.
[0475] The ninth animation effect is used to depict the gradual increase in the screen size (or area) occupied by the first plant. The screen before the ninth animation effect begins is designated as First Fragrance Screen #9, where the first plant is displayed in the fifth mode, and its area is designated as the first area. The screen after the ninth animation effect ends is designated as First Fragrance Screen #10, where the first plant is displayed in the sixth mode, and its area is designated as the second area, which is larger than the first area. The process of the first plant switching from the fifth mode to the sixth mode can also be understood as the transition from First Fragrance Screen #9 to First Fragrance Screen #10. The transition from First Fragrance Screen #9 to First Fragrance Screen #10 is a dynamic process, achieved through the animation effect of the first plant's gradually increasing area, resulting in a natural transition from First Fragrance Screen #9 to First Fragrance Screen #10.
[0476] One possible implementation is that the ninth animation consists of multiple frames of the first plant. The processing device can generate multiple frames of the first plant through real-time rendering and display them sequentially. The area of the first plant in each of the multiple frames increases sequentially, thereby achieving the ninth animation.
[0477] Through the above implementation method, during the process of switching the first plant from being displayed in the fifth mode to being displayed in the sixth mode, the processing device displays a dynamic effect of the area of the first plant gradually changing on the cockpit screen, realizing a natural transition between different fragrance screens (where the area of the first plant is different), which can improve the visualization effect of the fragrance and enhance the user's visual experience.
[0478] In one possible implementation, the processing device receives and responds to a sixth input to open the window or door of the first seat of the vehicle. Before opening the window or door of the first seat of the vehicle, the first plant in the first screen content is displayed in a seventh manner. After opening the window or door of the first seat of the vehicle, the first plant in the first screen content is displayed in an eighth manner. The seventh manner differs from the eighth manner.
[0479] The sixth input refers to an input targeting the window or door of the vehicle's first seat, used to trigger the opening of the vehicle's first seat window or door. For example, the sixth input may include triggering an operation on the opening control of the vehicle's first seat window or door. Alternatively, the sixth input may include a voice command for opening the vehicle's first seat window or door. In one possible implementation, the user initiates the sixth input by triggering the opening control of the vehicle's first seat window or door, and the processing device receives the sixth input accordingly. In response to the sixth input, the processing device opens the vehicle's first seat window or door and adjusts the display mode of the first plant.
[0480] Optionally, the first seat may include one or more seats. For example, the first seat may be a left-hand seat, such as the front left-hand seat (or driver's seat) or the rear left-hand seat, and correspondingly, the window or door for the first seat may be a left-hand window or door. Alternatively, the first seat may be a right-hand seat, such as the front right-hand seat (or front passenger seat) or the rear right-hand seat, and correspondingly, the window or door for the first seat may be a right-hand window or door. Furthermore, the first seat may include both left-hand and right-hand seats, and correspondingly, the window or door for the first seat may include both left-hand and right-hand windows or doors.
[0481] The display method of the first plant in the first screen can be related to the state of the car window or door (open or closed). Different window or door states correspond to different plant display methods. Before the first seat window or door of the vehicle is opened, the window or door is closed. After the first seat window or door of the vehicle is opened, the window or door is open. The seventh method refers to the plant display method when the window or door is closed, and the eighth method refers to the plant display method when the window or door is open.
[0482] Through the above implementation method, the processing device can distinguish and display plant images under different window or door conditions, which can further refine and enrich the visualization effect of the fragrance and enhance the user's visual experience.
[0483] In one possible implementation, the swaying state of the first plant when displayed in the seventh manner is different from the swaying state of the first plant when displayed in the eighth manner.
[0484] In other words, the swaying state of the first plant in the first frame is related to the state of the car window or door; different states of the car window or door can correspond to different swaying states of the plant. For example, the swaying state of the plant may include, but is not limited to, the swaying direction, swaying amplitude, and swaying frequency.
[0485] Through the above implementation method, the swaying state of the plant is related to the state of the car window or door. The processing device can distinguish and display the swaying state of the plant under different car window or door states, which can further refine and enrich the visualization effect of the fragrance and enhance the user's visual experience.
[0486] In one possible implementation, the swaying state includes the swaying amplitude, which is smaller than the swaying amplitude when the first plant is displayed in the seventh manner.
[0487] In other words, the swaying amplitude of the first plant when the car window or door is closed is less than the swaying amplitude of the first plant when the car window or door is open. For example, the swaying amplitude of the first plant can be the angle at which its branches (or flowers, or leaves) deviate from the vertical. The swaying amplitude of the first plant can also be understood as the degree of tilt of the first plant. For example, the greater the swaying amplitude of the first plant, the greater its degree of tilt (i.e., the more tilted). Conversely, the smaller the swaying amplitude of the first plant, the smaller its degree of tilt (i.e., the less tilted, or the straighter).
[0488] Please see Figure 17A and Figure 17B , Figure 17A and Figure 17B This is a schematic diagram of the first fragrance display under different window or door states provided in the embodiments of this application. Figure 17A This is a schematic diagram of a first fragrance display screen when the car window or door is closed, provided in an embodiment of this application. Figure 17B This is a schematic diagram of a first fragrance display screen when a car window or door is open, as provided in an embodiment of this application. Figure 17A As shown, the first fragrance screen displays cockpit view 1701 and first screen content 1702. (As...) Figure 17BAs shown, the first fragrance screen displays cockpit view 1701 and first screen content 1703. The swaying amplitude of the plants in the first screen content 1703 is greater than that of the plants in the first screen content 1702.
[0489] Through the above implementation method, the plant swaying amplitude is related to the state of the car window or door. The processing device can distinguish and display the plant swaying amplitude under different car window or door states, which can further refine and enrich the visualization effect of the fragrance and enhance the user's visual experience.
[0490] Optionally, the swaying amplitude of the first plant when displayed in the eighth manner can also be related to the opening degree of the car window or door. For example, the larger the opening degree of the car window or door, the larger the swaying amplitude of the first plant, and the smaller the opening degree of the car window or door, the smaller the swaying amplitude of the first plant.
[0491] In one possible implementation, during the process of switching the first plant from being displayed in a seventh mode to being displayed in an eighth mode, the processing device displays a motion effect on the cockpit screen showing the gradual change in the swaying state of the first plant.
[0492] For example, during the process of the first plant switching from being displayed in the seventh mode to being displayed in the eighth mode, a tenth motion effect is displayed in the cockpit screen, which is presented by the first plant's swaying amplitude gradually increasing.
[0493] The tenth animation effect depicts the gradual increase in the swaying amplitude of the first plant. The scene before the tenth animation effect begins is designated as First Fragrance Scene #11, where the first plant is displayed in the seventh mode, with its swaying amplitude at the first amplitude. The scene after the tenth animation effect ends is designated as First Fragrance Scene #12, where the first plant is displayed in the eighth mode, with its swaying amplitude at the second amplitude, which is greater than the first. The transition from displaying the first plant in the seventh mode to the eighth mode can also be understood as the transition from First Fragrance Scene #11 to First Fragrance Scene #12. The transition from First Fragrance Scene #11 to First Fragrance Scene #12 is a dynamic process, achieved through the gradually increasing swaying amplitude of the first plant, creating a natural transition from First Fragrance Scene #11 to First Fragrance Scene #12.
[0494] One possible implementation is that the tenth animation consists of multiple frames of the first plant. The processing device can generate multiple frames of the first plant through real-time rendering and display them sequentially. The swaying amplitude of the first plant in the multiple frames increases sequentially, thereby achieving the tenth animation.
[0495] Through the above implementation method, during the process of switching the first plant from the seventh mode to the eighth mode, the processing device displays a motion effect on the cockpit screen that gradually increases the swaying amplitude of the first plant, so as to achieve a natural transition between different fragrance screens (in which the swaying amplitude of the first plant is different), thereby improving the visualization effect of the fragrance and enhancing the user's visual experience.
[0496] In one possible implementation, the swaying state of the first plant in the first frame content can be related to the position of the open window or door, with different swaying states corresponding to different positions of the open window or door. Optionally, the swaying direction of the first plant is related to the position of the open window or door.
[0497] The following explanation uses a car window as an example; the situation is similar for car doors. Optionally, the position of a car window can be divided into two categories: left and right. Alternatively, the position of a car window can be divided into four categories: front left, rear left, front right, and rear right. The following explanation uses the left and right positions as examples.
[0498] Example 1: The first seat is located on the left side of the vehicle, and the first plant swings to the right when displayed in the eighth manner.
[0499] If the first seat is located on the left side of the vehicle, then the open window or door is the left-side window or door. In this case, it can be assumed that the wind outside the vehicle blows into the vehicle from the left, causing the first seat to sway to the right.
[0500] Example 2: If the first seat is located on the right side of the vehicle, the first plant will swing to the left when displayed in the eighth manner.
[0501] If the first seat is located on the right side of the vehicle, then the open window or door is the right-side window or door. In this case, it can be assumed that the wind outside the vehicle blows into the vehicle from the right side, causing the first seat to sway to the left.
[0502] It should be understood that in other examples, the left and right windows or doors can be opened simultaneously. In this case, it can be assumed that the wind outside the car blows into the car from both the left and right sides at the same time, so that the first plant can swing back and forth to the left and right.
[0503] Please see Figure 18A and Figure 18B , Figure 18A and Figure 18B This is a schematic diagram illustrating the first fragrance display in different locations with the car window or door open, as provided in the embodiments of this application. Figure 18A This is a schematic diagram of a first fragrance display screen when the left-side window or door is open, provided in an embodiment of this application. Figure 18B This is a schematic diagram of a first fragrance display screen when the right-side window or door is open, as provided in an embodiment of this application. Figure 18A As shown, the first fragrance screen displays cockpit view 1801 and first screen content 1802, with the plants in first screen content 1802 swaying to the right. (As shown...) Figure 18B As shown, the first fragrance screen displays cockpit screen 1801 and first screen content 1803, and the plants in the first screen content 1803 are swaying to the left.
[0504] Optionally, the tenth motion effect may also include a motion effect in which the swing direction of the first plant gradually changes. In one possible scenario, if the first plant swings to the right when displayed in the eighth mode, the tenth motion effect may include a motion effect in which the swing direction of the first plant gradually changes to the right. In another possible scenario, if the first plant swings to the left when displayed in the eighth mode, the tenth motion effect may include a motion effect in which the swing direction of the first plant gradually changes to the left.
[0505] Through the above implementation method, the direction of plant swaying is related to the position of the open car window or door. The processing device can distinguish and display the direction of plant swaying when the car window or door is open in different positions. This can further refine and enrich the visualization effect of the fragrance and enhance the user's visual experience.
[0506] In one possible implementation, the processing device receives and responds to a seventh input to the first fragrance screen by adjusting the display mode of the first plant in the content of the first screen. Before receiving the seventh input to the first fragrance screen, the first plant is displayed in a ninth mode. After receiving the seventh input to the first fragrance screen, the first plant is displayed in a tenth mode. The ninth mode is different from the tenth mode.
[0507] The seventh input refers to an input to the first fragrance screen, used to trigger an adjustment to the display mode of the first plant. For example, the seventh input may include a swipe operation on the first fragrance screen. In one possible implementation, the user initiates the seventh input by swiping on the first fragrance screen, and the processing device receives the seventh input accordingly. In response to the seventh input, the processing device adjusts the display mode of the first plant.
[0508] Before and after the seventh input, the interactive state of the first fragrance screen differs. For example, before the seventh input, the interactive state of the first fragrance screen is recorded as non-interactive; after the seventh input, the interactive state of the first fragrance screen is recorded as interactive. The display method of the first plant can be related to the interactive state of the first fragrance screen; different plant display methods can correspond to different interactive states of the first fragrance screen. The ninth method can be understood as the plant display method corresponding to the first fragrance screen being in a non-interactive state, and the tenth method can be understood as the plant display method corresponding to the first fragrance screen being in an interactive state.
[0509] Through the above implementation method, the processing device can distinguish and display plant images in different interactive states of the fragrance image, which can further refine and enrich the visualization effect of the fragrance and enhance the user's visual experience.
[0510] In one possible implementation, the swaying state of the first plant when displayed in the ninth manner is different from the swaying state of the first plant when displayed in the tenth manner.
[0511] In other words, the swaying state of the first plant in the first screen is related to the interaction state of the first fragrance screen. Different plant swaying states can correspond to different interaction states of the first fragrance screen. For example, the swaying state of the plant may include, but is not limited to, the swaying direction, swaying amplitude, and swaying frequency.
[0512] Through the above implementation method, the swaying state of the plant is related to the interactive state of the fragrance screen. The processing device can distinguish and display the swaying state of the plant when the fragrance screen is in different interactive states, which can further refine and enrich the visualization effect of the fragrance and enhance the user's visual experience.
[0513] In one possible implementation, the oscillation state includes an oscillation amplitude, which is smaller than the oscillation amplitude when the first plant is displayed in the ninth manner.
[0514] In other words, the swaying amplitude of the first plant when the first fragrance screen is in an uninteractive state is less than the swaying amplitude of the first plant when the first fragrance screen is in an interactive state.
[0515] Please see Figure 19A and Figure 19B , Figure 19A and Figure 19B This is a schematic diagram showing the first fragrance screen provided in this application embodiment in different interactive states. Wherein, Figure 19A This is a schematic diagram illustrating a first fragrance screen in a non-interactive state, as provided in an embodiment of this application. Figure 19B This is a schematic diagram illustrating a first fragrance screen in an interactive state, as provided in an embodiment of this application. Figure 19A As shown, the first fragrance-themed screen displays cockpit view 1901 and first screen content 1902. (As...) Figure 19B As shown, the first fragrance scene displays cockpit view 1901 and first view content 1903. The swaying amplitude of the plants in the first view content 1903 is greater than that of the plants in the first view content 1902.
[0516] For example, when the user's finger is on Figure 19A When the user slides across the first fragrance screen, the processing device adjusts the content of the first screen, thus changing the first fragrance screen from... Figure 19AThe first fragrance screen shown switches to Figure 19B The first fragrance image shown.
[0517] Through the above implementation method, the swaying amplitude of the plant is related to the interactive state of the fragrance image. The processing device can distinguish and display the swaying amplitude of the plant in different interactive states of the fragrance image, which can further refine and enrich the visualization effect of the fragrance and enhance the user's visual experience.
[0518] In one possible implementation, during the process of switching the first plant from being displayed in the ninth mode to being displayed in the tenth mode, the processing device displays a motion effect on the cockpit screen showing the gradual change in the swaying state of the first plant.
[0519] For example, during the process of the first plant switching from being displayed in the ninth mode to being displayed in the tenth mode, an eleventh motion effect is displayed in the cockpit screen, and the eleventh motion effect is presented in a way that the swaying amplitude of the first plant gradually increases.
[0520] The eleventh animation effect depicts the gradual increase in the swaying amplitude of the first plant. The scene before the eleventh animation effect begins is designated as Fragrance Scene #13, where the first plant is displayed in the ninth mode, with its swaying amplitude at the third level. The scene after the eleventh animation effect ends is designated as Fragrance Scene #14, where the first plant is displayed in the tenth mode, with its swaying amplitude at the fourth level, which is greater than the third. The transition from displaying the first plant in the ninth mode to the tenth mode can also be understood as the transition from Fragrance Scene #13 to Fragrance Scene #14. The transition from Fragrance Scene #13 to Fragrance Scene #14 is a dynamic process, achieved through the gradually increasing swaying amplitude of the first plant, creating a natural transition from Fragrance Scene #13 to Fragrance Scene #14.
[0521] One possible implementation is that the eleventh motion effect consists of multiple frames of the first plant. The processing device can generate multiple frames of the first plant through real-time rendering and display them sequentially. The swaying amplitude of the first plant in the multiple frames of the first plant increases sequentially, thereby realizing the eleventh motion effect.
[0522] Through the above implementation method, during the process of switching the first plant from the ninth mode to the tenth mode, the processing device displays a motion effect on the cockpit screen that gradually increases the swaying amplitude of the first plant, so as to achieve a natural transition between different fragrance screens (where the swaying amplitude of the first plant is different), thereby improving the visualization effect of the fragrance and enhancing the user's visual experience.
[0523] In one possible implementation, the seventh input includes a sliding input along a first direction, which swings along the first direction when the first plant is displayed in a tenth manner.
[0524] The first direction refers to the sliding input direction on the first fragrance screen. The swing direction of the first plant when displayed in the tenth mode is the same as the first direction. For example, if the first direction is to the right, the first plant will swing to the right when displayed in the tenth mode. Or, if the first direction is to the left, the first plant will swing to the left when displayed in the tenth mode.
[0525] For example, please see Figure 19B When a user slides their finger to the right on the first fragrance screen, the plants in the first screen content 1902 will sway to the right.
[0526] Optionally, the eleventh motion effect may also include a motion effect in which the swaying direction of the first plant gradually changes. For example, if the user slides their finger to the right on the first fragrance screen, the eleventh motion effect may include a motion effect in which the swaying direction of the first plant gradually changes to the right. Similarly, if the user slides their finger to the left on the first fragrance screen, the eleventh motion effect may include a motion effect in which the swaying direction of the first plant gradually changes to the left.
[0527] Optionally, the eleventh motion effect may also include the motion effect of the user's finger sliding trace gradually being generated and gradually disappearing on the first fragrance screen. For example, while the user's finger is sliding on the first fragrance screen, the processing device displays the motion effect of the sliding trace gradually being generated on the first fragrance screen, and after the user's finger leaves the first fragrance screen, the processing device displays the motion effect of the sliding trace gradually disappearing on the first fragrance screen.
[0528] Through the above implementation method, the direction of plant swaying is related to the sliding input direction on the fragrance screen. The processing device can distinguish and display the direction of plant swaying under different sliding directions, which can further refine and enrich the visualization effect of the fragrance and enhance the user's visual experience.
[0529] In one possible implementation, the seventh input includes a gesture trajectory, which is scaled according to when the first plant is displayed in the tenth manner.
[0530] Gesture trajectories can be used to trigger zooming in or out of plant images (or fragrance images). Optionally, a correspondence between gesture trajectories and zoom methods can be preset. For example, a first gesture trajectory corresponds to a first zoom method (e.g., zooming in according to a first ratio), and a second gesture trajectory corresponds to a second zoom method (e.g., zooming out according to a second ratio), but this application does not impose any limitations on this.
[0531] Through the above implementation method, the processing device can zoom in and out of the fragrance image according to the gesture trajectory, which can further refine and enrich the visualization effect of the fragrance and enhance the user's visual experience.
[0532] In one possible implementation, the processing device receives and responds to an eighth input to play the first medium. Before playing the first medium, the first plant in the first screen content is displayed in an eleventh manner. After playing the first medium, the first plant in the first screen content is displayed in a twelfth manner. The eleventh and twelfth manners are different.
[0533] The eighth input refers to an input directed at the first media, used to trigger playback of the first media. For example, the eighth input may include a trigger operation on the playback controls of the first media. Alternatively, the eighth input may include a voice command for playing the first media. In one possible implementation, the user initiates the eighth input by triggering the playback controls of the first media, and the processing device receives the eighth input accordingly. In response to the seventh input, the processing device plays the first media and adjusts the display mode of the first media. Exemplarily, the first media may include, but is not limited to, audio or video.
[0534] The media playback status differs before and after the eighth input. For example, before the eighth input, the media playback status is recorded as "not playing," and after the eighth input, it is recorded as "playing." The display method of the first plant can be related to the media playback status; different media playback statuses can correspond to different plant display methods. The eleventh method can be understood as the plant display method corresponding to the "not playing" status, and the twelfth method can be understood as the plant display method corresponding to the "playing" status.
[0535] Through the above implementation method, the processing device can distinguish and display plant images under different media playback states, which can further refine and enrich the visualization effect of fragrance and enhance the user's visual experience.
[0536] In one possible implementation, the swaying state of the first plant when it is displayed in the eleventh manner is different from the swaying state of the first plant when it is displayed in the twelfth manner.
[0537] In other words, the swaying state of the first plant in the first frame is related to the media playback state; different media playback states can correspond to different plant swaying states. For example, the plant swaying state may include, but is not limited to, the swaying direction, swaying amplitude, and swaying frequency.
[0538] Through the above implementation method, the plant swaying state is related to the media playback state. The processing device can distinguish and display the plant swaying state under different media playback states, which can further refine and enrich the visualization effect of the fragrance and enhance the user's visual experience.
[0539] In one possible implementation, the oscillation state includes the oscillation amplitude, which is smaller than the oscillation amplitude when the first plant is displayed in the eleventh manner.
[0540] In other words, the swaying amplitude of the first plant in the non-playing state is less than the swaying amplitude of the first plant in the playing state. For example, a schematic diagram of the first fragrance image in the non-playing state can be found here. Figure 17A The illustration of the first fragrance screen during playback can be referenced. Figure 17B Further details will not be elaborated here.
[0541] Through the above implementation method, the plant swaying amplitude is related to the media playback state. The processing device can distinguish and display the plant swaying amplitude under different media playback states, which can further refine and enrich the visualization effect of the fragrance and enhance the user's visual experience.
[0542] In one possible implementation, during the process of switching the first plant from being displayed in the eleventh mode to being displayed in the twelfth mode, the processing device displays a motion effect on the cockpit screen showing the gradual change in the swaying state of the first plant.
[0543] For example, during the process of switching the first plant from being displayed in the eleventh mode to being displayed in the twelfth mode, a twelfth motion effect is displayed in the cockpit screen, which is presented by gradually increasing the swaying amplitude of the first plant.
[0544] The twelfth animation effect depicts the gradual increase in the swaying amplitude of the first plant. The scene before the twelfth animation effect begins is designated as Fragrance Scene #15, where the first plant is displayed in the eleventh mode, with a swaying amplitude of the fifth amplitude. The scene after the twelfth animation effect ends is designated as Fragrance Scene #16, where the first plant is displayed in the twelfth mode, with a swaying amplitude of the sixth amplitude, which is greater than the fifth amplitude. The transition from displaying the first plant in the eleventh mode to the twelfth mode can also be understood as the transition from Fragrance Scene #15 to Fragrance Scene #16. The transition from Fragrance Scene #15 to Fragrance Scene #16 is a dynamic process, achieved through the gradually increasing swaying amplitude of the first plant, creating a natural transition from Fragrance Scene #15 to Fragrance Scene #16.
[0545] One possible implementation is that the twelfth motion effect consists of multiple frames of the first plant. The processing device can generate multiple frames of the first plant through real-time rendering and display them sequentially. The swaying amplitude of the first plant in the multiple frames of the first plant increases sequentially, thereby realizing the twelfth motion effect.
[0546] Through the above implementation method, during the process of switching the first plant from the eleventh mode to the twelfth mode, the processing device displays a motion effect on the cockpit screen that gradually increases the swaying amplitude of the first plant, so as to achieve a natural transition between different fragrance screens (in which the swaying amplitude of the first plant is different), thereby improving the visualization effect of the fragrance and enhancing the user's visual experience.
[0547] In one possible implementation, if the first media is played at a first rhythm, the swaying frequency of the first plant when displayed in a twelfth manner is the first frequency. If the first media is played at a second rhythm, the swaying frequency of the first plant when displayed in a twelfth manner is the second frequency. The first rhythm is faster than the second rhythm, and the first frequency is higher than the second frequency.
[0548] In other words, the swaying frequency of the first plant is related to the playback rhythm of the first medium; different media playback rhythms correspond to different plant swaying frequencies. For example, the faster the media playback rhythm, the higher the corresponding plant swaying frequency. Conversely, the slower the media playback rhythm, the lower the corresponding plant swaying frequency. For instance, the plant swaying frequency when the first medium is a fast song is higher than the plant swaying frequency when the first medium is a slow song.
[0549] For example, the swaying frequency of the first plant can be the frequency at which the branches (or flowers, or leaves) of the first plant sway back and forth with the vertical direction as the center. The swaying frequency of the first plant can also be understood as the swaying speed of the first plant. For example, the higher the swaying frequency of the first plant, the faster the swaying speed of the first plant. Conversely, the lower the swaying frequency of the first plant, the slower the swaying speed of the first plant.
[0550] Through the above implementation method, the plant swaying frequency is related to the media playback rhythm. The processing device can distinguish and display the plant swaying frequency under different media playback rhythms, which can further refine and enrich the visualization effect of the fragrance and enhance the user's visual experience.
[0551] The methods of the embodiments of this application have been described in detail above. Below, apparatus for implementing any one of the methods in the embodiments of this application is provided. It is understood that the various apparatuses provided in the embodiments of this application, such as processing devices, computing devices, chips, etc., in order to implement the functions in the above method embodiments, include hardware structures, software units, or combinations of hardware and software structures corresponding to each function. Those skilled in the art should readily recognize that, in conjunction with the various functions described in the embodiments disclosed herein, the apparatus and modules within the apparatus can be implemented in hardware or a combination of hardware and computer software. Whether a function is executed by hardware or by computer software driving hardware depends on the specific application and design constraints of the technical solution. Those skilled in the art can use different apparatus implementation methods to implement the aforementioned method embodiments in different usage scenarios, and different implementation methods of the apparatus should not be considered beyond the scope of the embodiments of this application. Several possible apparatuses are listed below.
[0552] Please see Figure 20 , Figure 20 This is a schematic diagram of a processing device provided in an embodiment of this application. The processing device 2000 can be implemented through hardware, software, or a combination of both. For example... Figure 20 As shown, the processing device 2000 includes a transceiver unit 2001 and a processing unit 2002. The descriptions of each unit are as follows:
[0553] The transceiver unit 2001 is used to receive the fragrance activation input. The processing unit 2002 is used to respond to the fragrance activation input, display the fragrance interface, and display the first fragrance screen in the fragrance interface. The first fragrance screen includes a cabin screen and first screen content corresponding to the first fragrance. The cabin screen represents the vehicle's cabin, and the first screen content is displayed in the cabin screen. The first screen content includes a first plant.
[0554] In one possible implementation, before displaying the content of the first screen, the processing unit 2002 displays a first motion effect in the cockpit screen, the first motion effect being presented in the manner of a first plant growing.
[0555] In one possible implementation, the processing unit 2002 activates the first fragrance after receiving the fragrance activation input.
[0556] In one possible implementation, the processing unit 2002, in response to a fragrance activation input, displays a fragrance interface, which includes a first fragrance control and a cockpit screen. The transceiver unit 2001 is used to receive a first input to the first fragrance control, and the processing unit 2002, in response to the first input to the first fragrance control, displays the content of a first screen on the cockpit screen.
[0557] In one possible implementation, the fragrance interface further includes a second fragrance control. The transceiver unit 2001 is also configured to receive a second input to the second fragrance control. The processing unit 2002 is further configured to display a second fragrance screen in the fragrance interface in response to the second input to the second fragrance control. The second fragrance screen includes a cabin view and second screen content corresponding to the second fragrance, which is displayed in the cabin view and includes a second plant. The second fragrance control differs from the first fragrance control, and the second fragrance screen differs from the first fragrance screen.
[0558] In one possible implementation, during the transition from the first screen content to the second screen content, the processing unit 2002 is also used to display a second motion effect and a third motion effect on the cockpit screen. The second motion effect is presented as the first plant gradually disappears, and the third motion effect is presented as the second plant grows.
[0559] In one possible implementation, the processing unit 2002 is further configured to display first remaining quantity information in the fragrance interface, the first remaining quantity information indicating the remaining quantity of the first fragrance. When the remaining quantity of the first fragrance is the first remaining quantity, the first plant in the first screen content is displayed in a first manner. When the remaining quantity of the first fragrance is the second remaining quantity, the first plant in the first screen content is displayed in a second manner. The first remaining quantity and the second remaining quantity are different, and the first manner and the second manner are different.
[0560] In one possible implementation, the height at which the first plant is displayed in a first manner is different from the height at which the first plant is displayed in a second manner.
[0561] In one possible implementation, if the first margin is greater than the second margin, the height of the first plant when displayed in the first manner is higher than the height of the first plant when displayed in the second manner. Alternatively, if the first margin is less than the second margin, the height of the first plant when displayed in the first manner is lower than the height of the first plant when displayed in the second manner.
[0562] In one possible implementation, when the first margin is greater than the second margin, during the process of switching the first plant from being displayed in the first mode to being displayed in the second mode, the processing unit 2002 is also used to display a fourth motion effect in the cockpit screen, the fourth motion effect being presented in a manner in which the height of the first plant gradually decreases.
[0563] In one possible implementation, when the first margin is less than the second margin, during the process of switching the first plant from being displayed in the first mode to being displayed in the second mode, the processing unit 2002 is also used to display a fifth motion effect in the cockpit screen, the fifth motion effect being presented in a manner in which the height of the first plant gradually increases.
[0564] In one possible implementation, the fragrance interface includes a concentration control. The processing unit 2002 is further configured to display first concentration information in the fragrance interface, the first concentration information indicating the concentration of a first fragrance. The transceiver unit 2001 is further configured to receive a third input to the concentration control. The processing unit 2002 is further configured to adjust the concentration of the first fragrance from a first concentration to a second concentration in response to the third input to the concentration control. When the concentration of the first fragrance is the first concentration, the first plant in the first screen content is displayed in a third manner. When the concentration of the first fragrance is the second concentration, the first plant in the first screen content is displayed in a fourth manner. The first concentration is different from the second concentration, and the third manner is different from the fourth manner.
[0565] In one possible implementation, the degree of lushness of the first plant when displayed in a third manner is different from the degree of lushness of the first plant when displayed in a fourth manner.
[0566] In one possible implementation, if the first concentration is greater than the second concentration, the lushness of the first plant when displayed in the third manner is greater than the lushness of the first plant when displayed in the fourth manner. Alternatively, if the first concentration is less than the second concentration, the lushness of the first plant when displayed in the third manner is less than the lushness of the first plant when displayed in the fourth manner.
[0567] In one possible implementation, when the first concentration is greater than the second concentration, during the process of switching the first plant from being displayed in a third mode to being displayed in a fourth mode, the processing unit 2002 is also used to display a sixth motion effect in the cockpit screen, the sixth motion effect being presented in a manner in which the lushness of the first plant gradually decreases.
[0568] In another possible implementation, when the first concentration is less than the second concentration, during the process of switching the first plant from being displayed in a third mode to being displayed in a fourth mode, the processing unit 2002 is also used to display a seventh motion effect in the cockpit screen, the seventh motion effect being presented in a way that the lushness of the first plant gradually increases.
[0569] In one possible implementation, the fragrance interface includes a time control. The processing unit 2002 is further configured to display first time information in the fragrance interface, the first time information indicating the cycle time of the first fragrance. The transceiver unit 2001 is further configured to receive a fourth input to the time control, and the processing unit 2002 is further configured to, in response to the fourth input to the time control, adjust the cycle time of the first fragrance from a first cycle time to a second cycle time.
[0570] In one possible implementation, the circulation time of the first fragrance includes a first time period and a second time period, wherein the first fragrance is released during the first time period and is not released during the second time period.
[0571] In one possible implementation, the fragrance interface includes a switch control. The transceiver unit 2001 is further configured to receive a fifth input to the switch control. The processing unit 2002 is further configured to, in response to the fifth input to the switch control, turn off the first fragrance and cancel the display of the first screen content on the cockpit screen.
[0572] In one possible implementation, the processing unit 2002 is further configured to display an eighth motion effect in the cockpit screen before canceling the display of the first screen content, the eighth motion effect being presented in the manner of the first plant gradually disappearing.
[0573] In one possible implementation, when the diffusion duration of the first fragrance is a first duration, the first plant in the first screen content is displayed in a fifth manner. When the diffusion duration of the first fragrance is a second duration, the first plant in the first screen content is displayed in a sixth manner. The diffusion duration of the first fragrance is the duration counted from when the first fragrance is activated; the first duration differs from the second duration, and the fifth manner differs from the sixth manner.
[0574] In one possible implementation, the screen size occupied by the first plant when displayed in the fifth manner is different from the screen size occupied by the first plant when displayed in the sixth manner.
[0575] In one possible implementation, if the first duration is longer than the second duration, the screen size occupied by the first plant when displayed in the fifth mode is greater than the screen size occupied by the first plant when displayed in the sixth mode. Alternatively, if the first duration is shorter than the second duration, the screen size occupied by the first plant when displayed in the fifth mode is smaller than the screen size occupied by the first plant when displayed in the sixth mode.
[0576] In one possible implementation, when the first duration is less than the second duration, during the process of the first plant switching from being displayed in the fifth mode to being displayed in the sixth mode, the processing unit 2002 is also used to display a ninth motion effect in the cockpit screen, the ninth motion effect being presented in a manner in which the screen size occupied by the first plant gradually increases.
[0577] In one possible implementation, the transceiver unit 2001 is further configured to receive a sixth input. The processing unit 2002 is further configured to open the window or door of the first seat of the vehicle in response to the sixth input. Before the window or door of the first seat of the vehicle is opened, the first plant in the first screen content is displayed in a seventh manner. After the window or door of the first seat of the vehicle is opened, the first plant in the first screen content is displayed in an eighth manner. The seventh manner is different from the eighth manner.
[0578] In one possible implementation, the swaying state of the first plant when displayed in the seventh manner is different from the swaying state of the first plant when displayed in the eighth manner.
[0579] In one possible implementation, the oscillation state includes the oscillation amplitude. The oscillation amplitude when the first plant is displayed in the seventh manner is smaller than the oscillation amplitude when the first plant is displayed in the eighth manner.
[0580] In one possible implementation, during the process of the first plant switching from being displayed in the seventh mode to being displayed in the eighth mode, the processing unit 2002 is also used to display a tenth motion effect in the cockpit screen, the tenth motion effect being presented in a manner in which the swaying amplitude of the first plant gradually increases.
[0581] In one possible implementation, if the first seat is located on the left side of the vehicle, the first plant swings to the right when displayed in the eighth manner. Alternatively, if the first seat is located on the right side of the vehicle, the first plant swings to the left when displayed in the eighth manner.
[0582] In one possible implementation, the transceiver unit 2001 is further configured to receive a seventh input to the first fragrance screen. The processing unit 2002 is further configured to adjust the display mode of the first plant in the first screen content in response to the seventh input to the first fragrance screen. Before receiving the seventh input to the first fragrance screen, the first plant is displayed in a ninth mode. After receiving the seventh input to the first fragrance screen, the first plant is displayed in a tenth mode. The ninth mode is different from the tenth mode.
[0583] In one possible implementation, the swaying state of the first plant when displayed in the ninth manner is different from the swaying state of the first plant when displayed in the tenth manner.
[0584] In one possible implementation, the oscillation state includes the oscillation amplitude. The oscillation amplitude when the first plant is displayed in the ninth manner is smaller than the oscillation amplitude when the first plant is displayed in the tenth manner.
[0585] In one possible implementation, during the process of the first plant switching from being displayed in the ninth mode to being displayed in the tenth mode, the processing unit 2002 is also used to display an eleventh motion effect in the cockpit screen, the eleventh motion effect being presented in a manner in which the swaying amplitude of the first plant gradually increases.
[0586] In one possible implementation, the seventh input includes a sliding input along a first direction, which swings along the first direction when the first plant is displayed in a tenth manner.
[0587] In one possible implementation, the seventh input includes a gesture trajectory, which is scaled according to when the first plant is displayed in the tenth manner.
[0588] In one possible implementation, the transceiver unit 2001 is further configured to receive an eighth input. The processing unit 2002 is further configured to play the first media in response to the eighth input. Before playing the first media, the first plant in the first screen content is displayed in an eleventh manner. After playing the first media, the first plant in the first screen content is displayed in a twelfth manner. The eleventh manner is different from the twelfth manner.
[0589] In one possible implementation, the swaying state of the first plant when it is displayed in the eleventh manner is different from the swaying state of the first plant when it is displayed in the twelfth manner.
[0590] In one possible implementation, the swaying amplitude of the first plant when displayed in the eleventh manner is smaller than the swaying amplitude of the first plant when displayed in the twelfth manner.
[0591] In one possible implementation, during the process of switching the first plant from being displayed in the eleventh mode to being displayed in the twelfth mode, the processing unit 2002 is also used to display the twelfth motion effect in the cockpit screen, the twelfth motion effect being presented in a manner in which the swaying amplitude of the first plant gradually increases.
[0592] In one possible implementation, if the first media is played at a first rhythm, the swaying frequency of the first plant when displayed in a twelfth manner is the first frequency. If the first media is played at a second rhythm, the swaying frequency of the first plant when displayed in a twelfth manner is the second frequency. The first rhythm is faster than the second rhythm, and the first frequency is greater than the second frequency.
[0593] According to the embodiments of this application, Figure 20 The various units in the illustrated device can be individually or entirely combined into one or more other units, or some of the units can be further divided into multiple functionally smaller units. This achieves the same operation without affecting the technical effects of the embodiments of this application. The above units are based on logical function division. In practical applications, the function of one unit can be implemented by multiple units, or the function of multiple units can be implemented by one unit. In other embodiments of this application, the above device may also include other units. In practical applications, these functions can also be implemented with the assistance of other units, and can be implemented collaboratively by multiple units. It should be noted that the implementation of each unit can also refer to the corresponding description of the above method embodiments.
[0594] Please see Figure 21 , Figure 21This is a schematic diagram of the structure of a computing device provided in an embodiment of this application. The computing device 2100 may include a processor 2101. Optionally, the computing device 2100 may also include a memory 2102. Further optionally, the computing device 2100 may also include a communication interface 2103 and a bus 2104. The processor 2101, memory 2102, and communication interface 2103 are interconnected via the bus 2104. The communication interface 2103 is used for data interaction with other devices.
[0595] The processor 2101 is a module that performs arithmetic and logical operations, and can be one or a combination of processing modules such as CPU, GPU, or MPU. The processor 2101 can also be other general-purpose processors, DSPs, ASICs, FPGAs, or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components, etc. The general-purpose processor can be a microprocessor or any conventional processor.
[0596] The memory 2102 is used to provide storage space, in which data such as the operating system and computer programs can be stored. The memory 2102 includes, but is not limited to, random access memory (RAM), read-only memory (ROM), erasable programmable read-only memory (EPROM), or compact disc read-only memory (CD-ROM).
[0597] The processor 2101 calls the computer program stored in the memory 2102, which can execute the method steps in the above method embodiments. For details, please refer to the previous method embodiments, which will not be repeated here.
[0598] Alternatively, the computing device 2100 may be a chip or a chip system. For the case where the computing device 2100 is a chip or a chip system, please refer to... Figure 22 The diagram shows the structure of the chip.
[0599] like Figure 22 As shown, chip 2200 includes processor 2201 and interface 2202. The number of processors 2201 can be one or more, and the number of interfaces 2202 can be multiple. It should be noted that the functions of each processor 2201 and interface 2202 can be implemented through hardware design, software design, or a combination of both; no restrictions are placed here.
[0600] Optionally, the chip 2200 may also include a memory 2203 for storing necessary program instructions and data.
[0601] In this application, processor 2201 can be used to call the implementation program of the fragrance display method provided in one or more embodiments of this application on a computing device from memory 2203, and execute the instructions contained in the program. Interface 2202 can be used to output the execution result of processor 2201. In this application, interface 2202 can be specifically used to output various messages or information of processor 2201.
[0602] For the fragrance display method provided in one or more embodiments of this application, please refer to the above-described method embodiments, which will not be repeated here.
[0603] This application also provides an intelligent cockpit, which is applied to a vehicle or other means of transportation that can accommodate people. The intelligent cockpit includes the processing device 2000, computing device 2100, or chip 2200 described in the above embodiments.
[0604] This application also provides a vehicle, including the processing device 2000, computing device 2100, chip 2200, or smart cockpit described in the above embodiments.
[0605] This application also provides a computer-readable storage medium storing a computer program, which, when executed, implements the method described in the above embodiments.
[0606] This application also provides a computer program product, which includes a computer program. When the computer program is executed, it implements the method described in the above embodiments.
[0607] In this application, the words "exemplarily" or "for example" are used to indicate that they are examples, illustrations, or descriptions. Any embodiment or design that is described as "exemplarily" or "for example" in this application should not be construed as being more preferred or advantageous than other embodiments or design options. Rather, the use of the words "exemplarily" or "for example" is intended to present the relevant concepts in a specific manner.
[0608] The ordinal numbers such as "first" and "second" mentioned in the embodiments of this application are used to distinguish multiple objects and are not used to limit the order, sequence, priority, or importance of the multiple objects. Furthermore, the terms "comprising" and "having," and any variations thereof, are intended to cover non-exclusive inclusion. For example, a process, method, system, product, or device that includes a series of steps or units is not limited to the listed steps or units, but may optionally include steps or units not listed, or may optionally include other steps or units inherent to these processes, methods, products, or devices.
[0609] The term "embodiment" as used herein means that a specific feature, structure, or characteristic described in connection with an embodiment may be included in at least one embodiment of this application. The appearance of this phrase in various places in the specification does not necessarily refer to the same embodiment, nor is it an independent or alternative embodiment mutually exclusive with other embodiments. Those skilled in the art will explicitly and implicitly understand that, unless otherwise specified or logically conflicting, the terminology and / or descriptions between the various embodiments of this application are consistent and can be mutually referenced, and technical features in different embodiments can be combined to form new embodiments based on their inherent logical relationships.
[0610] It should be understood that in this application, "at least one (item)" means one or more, "more than one" means two or more, "at least two (items)" means two or three or more, and "and / or" is used to describe the relationship between related objects, indicating that there can be three relationships. For example, "A and / or B" can mean: only A exists, only B exists, and A and B exist simultaneously, where A and B can be singular or plural. The character " / " generally indicates that the related objects before and after are in an "or" relationship. "At least one (item) of the following" or similar expressions refer to any combination of these items, including any combination of single or plural items. For example, at least one (item) of a, b, or c can mean: a, b, c, "a and b", "a and c", "b and c", or "a and b and c", where a, b, and c can be single or multiple.
[0611] It is understood that in the description of this application, "when," "if," and "if" all refer to the device making a corresponding action under certain objective circumstances, and are not time-limited, nor do they require the device to make a judgment action when it is implemented, nor do they mean that there are other limitations.
[0612] The above are merely specific embodiments of this application, but the scope of protection of this application is not limited thereto. Any changes or substitutions that can be easily conceived by those skilled in the art within the scope of the technology disclosed in this application should be included within the scope of protection of this application.
Claims
1. A fragrance display method, characterized in that, include: Receive fragrance activation input; In response to the fragrance activation input, a fragrance interface is displayed and a first fragrance screen is displayed in the fragrance interface. The first fragrance screen includes a cabin screen and first screen content corresponding to the first fragrance. The cabin screen is used to represent the cabin of the vehicle. The first screen content is displayed in the cabin screen and includes a first plant. The display of the first plant in the first screen content includes any of the following methods: different fragrance levels correspond to different plant display methods, different fragrance concentrations correspond to different plant display methods, different fragrance diffusion durations correspond to different plant display methods, and different window or door states correspond to different plant display methods.
2. The method according to claim 1, characterized in that, The method further includes: Before displaying the content of the first screen, a first motion effect is displayed in the cockpit screen, the first motion effect being presented in the manner of the first plant growing.
3. The method according to claim 1 or 2, characterized in that, The method further includes: Upon receiving the fragrance activation input, the first fragrance is activated.
4. The method according to claim 1 or 2, characterized in that, The step of responding to the fragrance activation input by displaying a fragrance interface and showing a first fragrance image in the fragrance interface includes: In response to the fragrance activation input, the fragrance interface is displayed, the fragrance interface including a first fragrance control and the cockpit screen; Receive and respond to a first input to the first fragrance control, and display the content of the first screen in the cockpit screen.
5. The method according to claim 4, characterized in that, The fragrance interface further includes a second fragrance control; the method further includes: Receive and respond to a second input to the second fragrance control, display a second fragrance screen in the fragrance interface, the second fragrance screen includes the cabin screen and the second screen content corresponding to the second fragrance, the second screen content is displayed in the cabin screen, the second screen content includes a second plant; The second fragrance control is different from the first fragrance control, and the second fragrance screen is different from the first fragrance screen.
6. The method according to claim 5, characterized in that, The method further includes: During the transition from the first screen content to the second screen content, a second animation effect and a third animation effect are displayed in the cockpit screen. The second animation effect is presented as the first plant gradually disappears, and the third animation effect is presented as the second plant grows.
7. The method according to claim 1 or 2, characterized in that, The method further includes: The fragrance interface displays first remaining information, which indicates the remaining amount of the first fragrance. When the remaining amount of the first fragrance is the first remaining amount, the first plant in the first screen content is displayed in the first manner; When the remaining amount of the first fragrance is the second remaining amount, the first plant in the first screen content is displayed in the second manner; The first margin is different from the second margin, and the first method is different from the second method.
8. The method according to claim 7, characterized in that, The first method differs from the second method in that it includes: The height of the first plant when displayed in the first manner is different from the height of the first plant when displayed in the second manner.
9. The method according to claim 8, characterized in that, The height of the first plant when displayed in the first manner differs from the height of the first plant when displayed in the second manner, including: If the first margin is greater than the second margin, then the height of the first plant displayed in the first manner is higher than the height of the first plant displayed in the second manner; or... If the first margin is less than the second margin, then the height of the first plant when displayed in the first manner is lower than the height of the first plant when displayed in the second manner.
10. The method according to claim 9, characterized in that, The method further includes: When the first margin is greater than the second margin, during the process of switching the first plant from being displayed in the first manner to being displayed in the second manner, a fourth motion effect is displayed on the cockpit screen, the fourth motion effect being presented by the height of the first plant gradually decreasing; or... When the first margin is less than the second margin, during the process of switching the first plant from being displayed in the first mode to being displayed in the second mode, a fifth motion effect is displayed in the cockpit screen, and the fifth motion effect is presented in a way that the height of the first plant gradually increases.
11. The method according to claim 1 or 2, characterized in that, The fragrance interface includes a concentration control; the method further includes: The fragrance interface displays first concentration information, which is used to indicate the concentration of the first fragrance; Receive and respond to a third input to the concentration control, adjust the concentration of the first fragrance from a first concentration to a second concentration; When the concentration of the first fragrance is the first concentration, the first plant in the first screen content is displayed in a third manner; When the concentration of the first fragrance is the second concentration, the first plant in the first screen content is displayed in a fourth manner; The first concentration is different from the second concentration, and the third method is different from the fourth method.
12. The method according to claim 11, characterized in that, The third method differs from the fourth method and includes: The degree of lushness of the first plant when displayed in the third manner is different from the degree of lushness of the first plant when displayed in the fourth manner.
13. The method according to claim 12, characterized in that, The degree of lushness of the first plant when displayed in the third manner differs from the degree of lushness of the first plant when displayed in the fourth manner, including: If the first concentration is greater than the second concentration, then the lushness of the first plant when displayed in the third manner is greater than the lushness of the first plant when displayed in the fourth manner; or, If the first concentration is less than the second concentration, then the lushness of the first plant when displayed in the third manner is less than the lushness of the first plant when displayed in the fourth manner.
14. The method according to claim 13, characterized in that, The method further includes: When the first concentration is greater than the second concentration, during the process of switching the first plant from being displayed in the third mode to being displayed in the fourth mode, a sixth motion effect is displayed in the cockpit screen, the sixth motion effect being presented in a manner that gradually reduces the lushness of the first plant; or... When the first concentration is less than the second concentration, during the process of switching the first plant from being displayed in the third mode to being displayed in the fourth mode, a seventh motion effect is displayed in the cockpit screen, and the seventh motion effect is presented in a way that the lushness of the first plant gradually increases.
15. The method according to claim 1 or 2, characterized in that, The fragrance interface includes a time control; the method further includes: The fragrance interface displays first time information, which is used to indicate the cycle time of the first fragrance; Receive and respond to a fourth input to the time control, adjust the cycle time of the first fragrance from a first cycle time to a second cycle time.
16. The method according to claim 15, characterized in that, The circulation time of the first fragrance includes a first time period and a second time period. The first fragrance is released during the first time period and is not released during the second time period.
17. The method according to claim 1 or 2, characterized in that, The fragrance interface includes a switch control; the method further includes: Upon receiving and responding to a fifth input to the switch control, the first fragrance is turned off, and the content of the first screen is de-displayed in the cockpit screen.
18. The method according to claim 17, characterized in that, The method further includes: Before canceling the display of the first screen content, an eighth motion effect is displayed in the cockpit screen, which is presented in the manner in which the first plant gradually disappears.
19. The method according to claim 1 or 2, characterized in that, When the diffusion time of the first fragrance is the first duration, the first plant in the first screen content is displayed in the fifth manner; When the diffusion duration of the first fragrance is the second duration, the first plant in the first screen content is displayed in a sixth manner; The diffusion duration of the first fragrance is the duration counted from the time the first fragrance is activated. The first duration is different from the second duration, and the fifth method is different from the sixth method.
20. The method according to claim 19, characterized in that, The fifth method differs from the sixth method and includes: The screen size occupied by the first plant when displayed in the fifth manner is different from the screen size occupied by the first plant when displayed in the sixth manner.
21. The method according to claim 20, characterized in that, The screen size occupied by the first plant when displayed in the fifth manner is different from the screen size occupied by the first plant when displayed in the sixth manner, including: If the first duration is greater than the second duration, then the screen size occupied by the first plant when displayed in the fifth mode is greater than the screen size occupied by the first plant when displayed in the sixth mode; or, If the first duration is less than the second duration, then the screen size occupied by the first plant when displayed in the fifth mode is less than the screen size occupied by the first plant when displayed in the sixth mode.
22. The method according to claim 21, characterized in that, The method further includes: When the first duration is less than the second duration, during the process of the first plant switching from being displayed in the fifth mode to being displayed in the sixth mode, a ninth motion effect is displayed in the cockpit screen, and the ninth motion effect is presented in a way that the screen size occupied by the first plant gradually increases.
23. The method according to claim 1 or 2, characterized in that, The method further includes: Receive and respond to the sixth input to open the window or door of the first seat of the vehicle; Before the window or door of the first seat of the vehicle is opened, the first plant in the first screen content is displayed in a seventh manner; After the window or door of the first seat of the vehicle is opened, the first plant in the first screen content is displayed in an eighth manner; The seventh method is different from the eighth method.
24. The method according to claim 23, characterized in that, The seventh method differs from the eighth method, including: The swaying state of the first plant when displayed in the seventh manner is different from the swaying state of the first plant when displayed in the eighth manner.
25. The method according to claim 24, characterized in that, The swaying state includes the swaying amplitude; the swaying state of the first plant when displayed in the seventh manner differs from the swaying state of the first plant when displayed in the eighth manner, including: The swaying amplitude of the first plant when displayed in the seventh manner is less than the swaying amplitude of the first plant when displayed in the eighth manner.
26. The method according to claim 25, characterized in that, The method further includes: During the process of switching the first plant from the seventh mode to the eighth mode, a tenth motion effect is displayed in the cockpit screen, which is presented by gradually increasing the swaying amplitude of the first plant.
27. The method according to claim 23, characterized in that, If the first seat is located on the left side of the vehicle, the first plant will sway to the right when displayed in the eighth manner; or, If the first seat is located on the right side of the vehicle, the first plant will sway to the left when displayed in the eighth manner.
28. The method according to claim 1 or 2, characterized in that, The method further includes: Receive and respond to the seventh input to the first fragrance screen, and adjust the display mode of the first plant in the content of the first screen; Before receiving the seventh input to the first fragrance image, the first plant is displayed in the ninth manner; After receiving the seventh input to the first fragrance image, the first plant is displayed in the tenth manner; The ninth method is different from the tenth method.
29. The method according to claim 28, characterized in that, The ninth method differs from the tenth method, including: The swaying state of the first plant when displayed in the ninth manner is different from the swaying state of the first plant when displayed in the tenth manner.
30. The method according to claim 29, characterized in that, The swaying state includes the swaying amplitude; the swaying state of the first plant when displayed in the ninth manner differs from the swaying state of the first plant when displayed in the tenth manner, including: The swaying amplitude of the first plant when displayed in the ninth manner is less than the swaying amplitude of the first plant when displayed in the tenth manner.
31. The method according to claim 30, characterized in that, The method further includes: During the process of switching the first plant from the ninth mode to the tenth mode, an eleventh motion effect is displayed in the cockpit screen, and the eleventh motion effect is presented by gradually increasing the swaying amplitude of the first plant.
32. The method according to claim 28, characterized in that, The seventh input includes a sliding input along a first direction, which the first plant oscillates along when displayed in the tenth manner.
33. The method according to claim 28, characterized in that, The seventh input includes a gesture trajectory, and the first plant is scaled according to the gesture trajectory when it is displayed in the tenth manner.
34. The method according to claim 1 or 2, characterized in that, The method further includes: Receive and respond to the eighth input, and play the first medium; Before the first media is played, the first plant in the first screen content is displayed in an eleventh manner; After the first media is played, the first plant in the first screen content is displayed in the twelfth manner; The eleventh method is different from the twelfth method.
35. The method according to claim 34, characterized in that, The eleventh method differs from the twelfth method in that: The swaying state of the first plant when displayed in the eleventh manner is different from the swaying state of the first plant when displayed in the twelfth manner.
36. The method according to claim 35, characterized in that, The swaying state includes the swaying amplitude; the swaying state of the first plant when displayed in the eleventh manner differs from the swaying state of the first plant when displayed in the twelfth manner, including: The swaying amplitude of the first plant when displayed in the eleventh manner is less than the swaying amplitude of the first plant when displayed in the twelfth manner.
37. The method according to claim 36, characterized in that, The method further includes: During the process of switching the first plant from the eleventh mode to the twelfth mode, a twelfth motion effect is displayed in the cockpit screen, which is presented by gradually increasing the swaying amplitude of the first plant.
38. The method according to claim 34, characterized in that, If the first media is played at the first rhythm, then the swaying frequency of the first plant when it is displayed in the twelfth manner is the first frequency; If the first media is played at the second rhythm, then the swaying frequency of the first plant when it is displayed in the twelfth manner is the second frequency; The first rhythm is faster than the second rhythm, and the first frequency is greater than the second frequency.
39. A processing apparatus, characterized in that, Includes units for performing the method as described in any one of claims 1 to 38.
40. A processing apparatus, characterized in that, include: One or more processors and one or more memories, wherein the one or more memories are coupled to the one or more processors, and the one or more memories are used to store a computer program that, when the one or more processors execute the computer program, implements the method as described in any one of claims 1 to 38.
41. A vehicle, characterized in that, Includes the apparatus of claim 39, or the apparatus of claim 40.
42. A computer-readable storage medium, characterized in that, The device contains a computer program that, when executed, implements the method as described in any one of claims 1 to 38.
43. A computer program product, characterized in that, Includes a computer program that, when executed, implements the method as described in any one of claims 1 to 38.
44. A chip, characterized in that, It includes a processing circuit and an interface circuit, the interface circuit being used to receive code instructions and transmit them to the processing circuit, the processing circuit being used to execute the code instructions to perform the method as described in any one of claims 1 to 38.