Control method of smart home system, control device, and storage medium
By adjusting preset scene parameters in the smart home system and optimizing device control based on device operation and target parameters, the problem of inaccurate device control when the smart home system repeatedly enters a scene is solved, achieving precise device control and meeting user needs.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- GD MIDEA AIR CONDITIONING EQUIP CO LTD
- Filing Date
- 2023-08-01
- Publication Date
- 2026-07-14
AI Technical Summary
When smart home systems repeatedly enter the same scene, device control cannot accurately meet user needs, and existing technologies cannot adjust preset scene parameters in real time to adapt to changes in users' actual needs.
When the smart home system starts the target scene, the target dimension device control parameters in the preset scene parameters are adjusted according to the device operating parameters and target parameters to form new preset scene parameters. The device is then controlled according to the new preset scene parameters the next time the target scene is run, ensuring the accuracy of device control.
It improves the accuracy of device control when the smart home system repeatedly enters the same scene, ensuring that the device control of the actual scene state accurately meets the user's needs, reducing the impact on user comfort and the inconvenience of scene configuration.
Smart Images

Figure CN119439762B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of smart home technology, and in particular to control methods, control devices, and storage media for smart home systems. Background Technology
[0002] Smart home systems can adapt to the specific needs of an indoor space and control the operation of devices within that space using the corresponding control parameters.
[0003] In smart home systems, scene parameters are usually pre-set for each scene. When a scene is started, the devices are controlled to run according to the pre-set scene parameters. During the operation of the scene, if the user feels that the pre-configured scene parameters do not meet their needs, they can only modify the current operating parameters of the devices by inputting commands, but cannot modify the pre-configured scene parameters. This can easily lead to the smart home system entering the scene again and the devices still running with the original configured scene parameters, and the actual scene state cannot meet the user's needs. Summary of the Invention
[0004] The main objective of this invention is to provide a control method, a control device, and a storage medium for a smart home system, aiming to improve the accuracy of device control when the smart home system repeatedly enters the same scene, so as to ensure that the actual scene state under device control accurately meets the user's needs.
[0005] To achieve the above objectives, the present invention provides a control method for a smart home system, the control method comprising the following steps:
[0006] When the smart home system activates the target scene, it controls the operation of the smart home system according to the preset scene parameters corresponding to the target scene. The preset scene parameters include device control parameters in at least two dimensions.
[0007] When the device operating parameters of the target dimension in the at least two dimensions are adjusted to the target parameters, the device control parameters of the target dimension in the preset scene parameters are adjusted according to the device operating parameters and the target parameters, and the adjusted preset scene parameters are determined as the new preset scene parameters;
[0008] When the smart home system runs the target scene again, it will control the operation of the smart home system according to the new preset scene parameters.
[0009] Optionally, the step of adjusting the device control parameters of the target dimension in the preset scene parameters according to the device operating parameters and the target parameters includes:
[0010] The duration is determined based on the initial time and the current time. The initial time includes the starting time when the smart home system starts operating with the preset scene parameters or the time when the device operating parameters corresponding to the target dimension are adjusted before the current time.
[0011] The device control parameters for the target dimension are adjusted based on the duration, the device operating parameters, and the target parameters.
[0012] Optionally, the step of adjusting the device control parameters for the target dimension based on the duration, the device operating parameters, and the target parameters includes:
[0013] Determine the parameter difference between the target parameter and the equipment operating parameter;
[0014] A parameter correction value is determined based on the duration and the parameter difference, wherein the parameter correction value is negatively correlated with the duration;
[0015] The device control parameters of the target dimension are corrected based on the parameter correction values.
[0016] Optionally, the step of determining the duration based on the initial time and the current time includes:
[0017] If the device operating parameters have not been adjusted before the current time, the duration is determined based on the start time and the current time;
[0018] If the device operating parameters were adjusted to parameters other than the target parameters before the current time, the duration is determined based on the time when the device operating parameters were adjusted before the current time and the current time.
[0019] Optionally, the step of adjusting the device control parameters for the target dimension based on the duration, the device operating parameters, and the target parameters includes:
[0020] If the device operating parameters were adjusted to parameters other than the target parameters before the current moment, the device control parameters of the target dimension are adjusted according to the duration, the device operating parameters, the other parameters, and the target parameters.
[0021] Optionally, the step of adjusting the device control parameters of the target dimension according to the duration, the device operating parameters, the other parameters, and the target parameters includes:
[0022] The reference control parameters for the target dimension are determined based on the equipment operating parameters and the other parameters.
[0023] The device control parameters for the target dimension are adjusted based on the reference control parameters, the duration, and the target parameters.
[0024] Optionally, the step of adjusting the device control parameters of the target dimension in the preset scene parameters according to the device operating parameters and the target parameters when the device operating parameters of the target dimension in the at least two dimensions are adjusted to the target parameters, and determining the adjusted preset scene parameters as the new preset scene parameters, includes:
[0025] When the device operating parameters of the target dimension in the at least two dimensions are adjusted to the target parameters, the corresponding electrical appliances are controlled to operate according to the target parameters, and the device control parameters of the target dimension in the preset scene parameters are adjusted according to the device operating parameters and the target parameters, and the adjusted preset scene parameters are determined as new preset scene parameters.
[0026] Optionally, the smart home system includes an air conditioner, and the at least two dimensions include temperature, humidity, and wind speed.
[0027] In addition, to achieve the above objectives, this application also proposes a control device for a smart home system, the control device comprising: a memory, a processor, and a control program for the smart home system stored in the memory and executable on the processor, wherein the control program for the smart home system, when executed by the processor, implements the steps of the control method for the smart home system as described in any of the preceding claims.
[0028] In addition, to achieve the above objectives, this application also proposes a storage medium storing a control program for a smart home system, wherein the control program for the smart home system, when executed by a processor, implements the steps of the control method for the smart home system as described in any of the preceding claims.
[0029] This invention proposes a control method for a smart home system. When the smart home system initiates a target scene, the method controls the device operation according to preset scene parameters corresponding to the target scene. Subsequently, if the user adjusts the device operation parameters in at least two target dimensions within that scene, it indicates that the current preset scene parameters do not meet the user's actual needs in that scene. In this case, the device control parameters in the target dimension are readjusted using the device operation parameters and the target parameters to obtain new preset scene parameters. The next time the device runs the target scene, it is controlled according to these new preset scene parameters, instead of the original preset parameters that do not meet the user's needs. This ensures improved accuracy of device control when the smart home system repeatedly enters the same scene, guaranteeing that the actual scene state under device control accurately meets the user's needs. Attached Figure Description
[0030] Figure 1This is a schematic diagram of the hardware structure involved in the operation of an embodiment of the control device of the smart home system of the present invention;
[0031] Figure 2 This is a flowchart illustrating an embodiment of the control method for the smart home system of the present invention;
[0032] Figure 3 This is a flowchart illustrating another embodiment of the control method for the smart home system of the present invention;
[0033] Figure 4 This is a flowchart illustrating another embodiment of the control method for the smart home system of the present invention.
[0034] The realization of the objective, functional features and advantages of the present invention will be further explained in conjunction with the embodiments and with reference to the accompanying drawings. Detailed Implementation
[0035] It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
[0036] This invention provides a control device for a smart home system, applicable to smart home systems.
[0037] Reference Figure 1 The smart home system includes one or more smart appliances 2 within the target space. The scene control device 1 of the smart home is communicatively connected to each smart appliance 2 in the smart home system.
[0038] In this embodiment, the target space is the entire house. In other embodiments, the target space may also be a combination of preset designated areas or a specific area, such as a room or a living room.
[0039] Among them, more than one smart appliance 2 can be connected to form a smart home system based on the connection module, which may include WIFI, Bluetooth, infrared, wiring, etc.
[0040] The smart home system may include a sensing module 3, which is connected to the smart home scene control device 1. The sensing module 3 can be used to receive sensing information. In this embodiment, the sensing module 3 may include environmental sensors, human body sensors, and device monitoring modules, etc., to detect sensing information such as environmental information, human body information, and device information.
[0041] Environmental sensors include sensors used to detect at least one environmental parameter such as temperature, humidity, PM2.5, carbon dioxide, and formaldehyde.
[0042] Human body sensors may include at least one type of sensor used to detect human information, such as infrared sensors, radar sensors, or WIFI. Human body information may include at least one type of information such as the number of people, their location, breathing, heart rate, and body movement amplitude.
[0043] The environmental information detected by the equipment monitoring module includes at least one of the following: power on / off status, set mode, set temperature, etc.
[0044] In this embodiment of the invention, reference is made to Figure 1 The smart home scene control device 1 includes: a processor 1001, such as a CPU, a memory 1002, and a timer 1003. These components communicate with each other via a communication bus. The memory 1002 can be high-speed RAM or stable, non-volatile memory, such as disk storage. Optionally, the memory 1002 can also be a storage device independent of the aforementioned processor 1001.
[0045] Those skilled in the art will understand that Figure 1 The device structure shown does not constitute a limitation on the device and may include more or fewer components than shown, or combine certain components, or have different component arrangements.
[0046] like Figure 1 As shown, the memory 1002, which serves as a computer storage medium, may include a scene control program for smart homes.
[0047] exist Figure 1 In the device shown, the processor 1001 can be used to call the smart home scene control program stored in the memory 1002 and execute the relevant steps of the smart home scene control method in the following embodiments.
[0048] This invention also provides a control method for a smart home system, applied to the control device of the aforementioned smart home system.
[0049] Reference Figure 2 This application proposes an embodiment of a control method for a smart home system. In this embodiment, the control method for the smart home system includes:
[0050] Step S10: When the smart home system starts the target scene, the smart home system is controlled to run according to the preset scene parameters corresponding to the target scene. The preset scene parameters include device control parameters in at least two dimensions.
[0051] The target scenario is the scenario in which the user needs to configure the scenario. The target scenario may include, but is not limited to, at least two of the following scenarios: the humid weather scenario, the rainy season scenario, the sleep scenario, the dinner scenario, the meeting scenario, etc.
[0052] The preset scene parameters are the parameters required for the smart home system to operate in the target scene, as configured before the target scene is started.
[0053] In this embodiment, the preset scene parameters include device control parameters of the smart home system in at least two dimensions. These at least two dimensions include, but are not limited to, temperature, humidity, and wind speed. The at least two corresponding device control parameters may include a set temperature, target humidity, target wind speed, and target rotation speed. These device control parameters can be the control parameters of one or more appliances in the smart home system.
[0054] Different target scenarios correspond to different preset scenario parameters. The device control parameters for each dimension may include the control parameters of one or more devices in the corresponding dimension.
[0055] When the smart home system is controlled according to the preset scene parameters, the corresponding appliances in the smart home system are controlled according to the preset control parameters corresponding to each dimension.
[0056] Step S20: When the device operating parameters of the target dimension in the at least two dimensions are adjusted to the target parameters, the device control parameters of the target dimension in the preset scene parameters are adjusted according to the device operating parameters and the target parameters, and the adjusted preset scene parameters are determined as new preset scene parameters.
[0057] The device operating parameters here specifically refer to the current operating parameters of devices in the smart home system corresponding to the target dimension during operation in the target scenario. These parameters include the device control parameters for the target dimension, or the parameters after the device control parameters for the target dimension have been adjusted.
[0058] The adjusted equipment operating parameters can be the operating parameters of one or more devices corresponding to the target dimension.
[0059] In one implementation, when a device parameter adjustment instruction is received during the operation of the smart home system controlled according to preset scene parameters, the device control parameters corresponding to the target dimension in the preset scene parameters can be adjusted according to the device control parameters corresponding to the target dimension and the target parameters in at least two dimensions based on the device parameter adjustment instruction, thereby obtaining new preset scene parameters.
[0060] In another implementation, after controlling the smart home system to operate according to preset scene parameters, after receiving a device parameter adjustment instruction to adjust the device operating parameters corresponding to the target dimension in at least two dimensions to intermediate parameters, the system can control the operation of the corresponding device according to the intermediate parameters. When a device parameter adjustment instruction is received again to adjust the device operating parameters (i.e., intermediate parameters) of the target dimension to the target parameters, the device control parameters corresponding to the target dimension in the preset scene parameters can be adjusted according to the intermediate parameters and the target parameters to obtain new preset scene parameters.
[0061] It should be noted that while adjusting the device control parameters of the target dimension in the preset scene parameters, the device control parameters of all dimensions other than the target dimension remain unchanged. In other words, the new preset scene parameters include the control parameters obtained after adjusting the device control parameters of the target dimension, as well as the device control parameters of other dimensions in the preset scene parameters.
[0062] For example, multiple dimensions include temperature, wind speed, and humidity. Preset scene parameters include set temperature, set wind speed, and set humidity. After the set temperature in the smart home system in the target scene is adjusted to the target parameter, the set temperature is adjusted according to the set temperature and the target parameter to obtain the new set temperature after the set temperature adjustment. The new preset scene parameters include the original set wind speed, set humidity, and the new set temperature.
[0063] Step S30: When the smart home system runs the target scene again, control the operation of the smart home system according to the new preset scene parameters.
[0064] The next target scene to run here specifically refers to the smart home system exiting the target scene after step S20 and then re-entering the target scene to run.
[0065] Control the operation of the corresponding electrical appliances according to the device parameters corresponding to each dimension in the new preset scenario parameters.
[0066] This invention proposes a control method for a smart home system. When the smart home system initiates a target scene, it controls the device operation according to preset scene parameters corresponding to the target scene. Subsequently, if the user adjusts the device operation parameters in at least two target dimensions within that scene, it indicates that the current preset scene parameters do not meet the user's actual needs in that scene. In this case, the device control parameters for the target dimension are readjusted using the device operation parameters and the target parameters to obtain new preset scene parameters. The next time the device enters the target scene, it is controlled according to these new preset scene parameters, instead of the original preset parameters that do not meet the user's needs. This improves the accuracy of device control when the smart home system repeatedly enters the same scene, ensuring that the actual scene state under device control accurately meets the user's needs. Furthermore, the preset parameters for the scene can be configured within a specific configuration mode without exiting the target scene, effectively improving the convenience of scene configuration and reducing the impact of exiting the target scene on user comfort.
[0067] Furthermore, based on the above embodiments, another embodiment of the control method for the smart home system of this application is proposed. In this embodiment, reference is made to... Figure 3 The step of adjusting the device control parameters of the target dimension in the preset scene parameters according to the device operating parameters and the target parameters includes:
[0068] Step S21: Determine the duration based on the initial time and the current time. The initial time includes the starting time when the smart home system starts running with the preset scene parameters or the time when the device operating parameters corresponding to the target dimension are adjusted before the current time.
[0069] The duration determined here can accurately reflect the user's satisfaction with the preset scene parameters within the target scene.
[0070] The current moment can be the moment when the device control parameters of the target dimension are first adjusted after the smart home system runs with preset scene parameters, or the moment after one or more adjustments.
[0071] The time when the device operating parameters corresponding to the target dimension were adjusted before the current time can be the last time they were adjusted or all the times when they were adjusted during the operation of the target scenario before the current time.
[0072] Specifically, the duration can be defined as the time interval between the initial duration and the current time.
[0073] Step S22: Adjust the device control parameters of the target dimension according to the duration, the device operating parameters, and the target parameters.
[0074] A pre-established correspondence between duration, equipment operating parameters, target parameters, and adjustment parameters is created. This correspondence can take the form of mapping or calculation. Based on this correspondence, adjustment parameters can be determined using duration, equipment operating parameters, and target parameters. Adjustment parameters can be adjustment magnitude or adjustment ratio. The sum of the adjustment magnitude and the equipment control parameters in the target dimension is used as the adjusted equipment control parameters for the target dimension. Alternatively, the product of the adjustment ratio and the equipment control parameters in the target dimension is used as the adjusted equipment control parameters for the target dimension.
[0075] In this embodiment, the parameter difference between the target parameter and the device operating parameter is determined; a parameter correction value is determined based on the duration and the parameter difference, wherein the parameter correction value is negatively correlated with the duration; and the device control parameter of the target dimension is corrected based on the parameter correction value. Specifically, a correction coefficient can be determined based on the duration; the shorter the duration, the larger the correction coefficient, and vice versa. The parameter correction value is obtained after correcting the parameter difference based on the correction coefficient. In this embodiment, the parameter correction value is the correction amplitude, and the sum of the device control parameter of the target dimension and the correction amplitude can be used as the adjusted device control parameter of the target dimension. For example, if the duration is defined as ΔT and the correction coefficient is r, then when ΔT ≤ 5 min, r = 0.9; when ΔT ≤ 10 min, r = 0.8; and when ΔT ≤ 15 min, r = 0.7. The device control parameter Ts' after target dimension adjustment is Ts+r*(Tp-Ts), where Ts is the device control parameter of the target dimension in the preset scene parameters, Tp is the target parameter, and Tp-Ts is the parameter difference.
[0076] In this embodiment, the initial duration and the duration between the initial time and the current time accurately represent the user's satisfaction with the device control parameters of the target dimension in the preset scene parameters. Adjusting the device control parameters of the target dimension by combining the duration, device operating parameters, and target parameters facilitates accurate adjustment of the preset scene parameters corresponding to the target scene. This ensures that the new preset scene parameters accurately match the user's needs within the target scene, thereby effectively improving the ability of the smart home system to precisely meet user needs when re-entering the target scene. Furthermore, the combination of parameter difference and duration accurately reflects the deviation between device operation and user needs within the target scene. Correcting the device control parameters by combining parameter difference and duration further improves the ability to accurately meet user needs when re-entering the target scene.
[0077] Furthermore, in this embodiment, the step of determining the duration based on the initial time and the current time includes: when the device operating parameters have not been adjusted before the current time, determining the duration based on the initial time and the current time; when the device operating parameters have been adjusted to parameters other than the target parameters before the current time, determining the duration based on the time when the device operating parameters were adjusted before the current time and the current time.
[0078] If the device operating parameters have been adjusted more than once before the current time, the duration can be determined based on the time of each adjustment and the current time.
[0079] Specifically, if the device operating parameters have not been adjusted before the current time, the time difference between the initial duration and the current time is determined as the duration. If the device operating parameters have not been adjusted before the current time, the time difference between the last adjusted time and the current time can be determined as the duration; alternatively, the duration difference between every two adjacent times when the device operating parameters were adjusted before the current time can be determined as a first sub-duration, and the time difference between the last adjusted time and the current time can be determined as a second sub-duration. The duration includes both the first and second sub-durations.
[0080] In this embodiment, determining the duration representing the user's satisfaction with the preset scene parameters based on the above method is beneficial to further improve the accuracy of the preset scene parameter adjustment, thereby further improving the accuracy of device control and the precision of matching with user needs when repeatedly entering the same scene.
[0081] Furthermore, in this embodiment, the step of adjusting the device control parameters of the target dimension according to the duration, the device operating parameters, and the target parameters includes:
[0082] If the device operating parameters were adjusted to parameters other than the target parameters before the current moment, the device control parameters of the target dimension are adjusted according to the duration, the device operating parameters, the other parameters, and the target parameters.
[0083] Specifically, the device operating parameters are those that have been adjusted sequentially to the levels before the other parameters and the target parameters. In this embodiment, the device operating parameters are the device control parameters of the target dimension within the preset scenario parameters.
[0084] In this embodiment, reference control parameters for the target dimension are determined based on the device operating parameters and other parameters. The device control parameters for the target dimension are then adjusted based on the reference control parameters, the duration, and the target parameter. Specifically, a first deviation value between the other parameters and the device operating parameters is determined. The preset control parameters for the target dimension are corrected based on the first deviation value to obtain reference control parameters. A second deviation value between the target parameter and the reference control parameters is determined. The second deviation value is corrected based on the duration to obtain a parameter correction value, which is negatively correlated with the duration. After correcting the reference control parameters based on the parameter correction value, the adjusted device control parameters for the target dimension are obtained.
[0085] In this embodiment, by means of the above method, when the user makes more than one adjustment to the device operating parameters in the target scenario, the preset scenario parameters can be accurately adjusted according to the user's satisfaction level, thereby further improving the accuracy of device control and the precision of meeting user needs when the target scenario is run again.
[0086] In other embodiments, a third deviation value between other parameters and equipment operating parameters may be determined, a fourth deviation value between target parameters and equipment operating parameters may be determined, a parameter correction value may be determined based on the third deviation value, the fourth deviation value and the duration, and the reference control parameters may be corrected based on the parameter correction value to obtain the target dimension adjusted equipment control parameters.
[0087] Furthermore, based on any of the above embodiments, another embodiment of the control method for the smart home system of this application is proposed. In this embodiment, reference is made to... Figure 4 Step S20 includes:
[0088] Step S201: When the device operating parameters of the target dimension in the at least two dimensions are adjusted to the target parameters, the corresponding electrical appliances are controlled to operate according to the target parameters, and the device control parameters of the target dimension in the preset scene parameters are adjusted according to the device operating parameters and the target parameters, and the adjusted preset scene parameters are determined as new preset scene parameters.
[0089] Based on this, while ensuring that the smart home system can accurately meet the user's real-time needs during the current target scenario, it can also adjust the preset scenario parameters for the next target scenario based on the user's satisfaction with the preset scenario parameters, thereby ensuring that the user's needs are accurately met when entering the target scenario repeatedly.
[0090] Furthermore, based on any of the above embodiments, in this embodiment, the smart home system includes an air conditioner, and the at least two dimensions include temperature, humidity, and wind speed.
[0091] For example, if the system starts scenario A (Ts1 = 26℃, wind speed = 60, humidity = 50) at time T1, the air conditioner will be controlled to operate according to Ts1 = 26℃, wind speed = 60, and humidity = 50. If the user modifies the parameter value Ts2 = 24℃ for a certain dimension of scenario A (e.g., temperature) at time T2, the air conditioner will operate according to Ts2. The time difference ΔT = T2 - T1 is calculated, and the correction coefficient r is obtained based on this value. The smaller ΔT is, the larger the correction coefficient is, and the larger ΔT is, the smaller the correction coefficient is. The correction coefficient is in the range [0,1].
[0092] If a user quickly adjusts parameters after activating a scene, it indicates that they need the scene but are dissatisfied with some parameters, thus requiring significant correction; conversely, the same applies. Based on the scene parameter Ts1, the setting parameter Ts2, and the correction coefficient r, the corrected scene parameter Ts = Ts1 + r * (Ts2 - Ts1) is determined. If r is larger, the corrected scene parameter will be closer to the current adjustment; if r is smaller, the corrected scene parameter will maintain the original parameter more. During the correction process, the air conditioner continues to operate according to Ts2.
[0093] For example, during the operation of scenario A, the user changes the set temperature to 24, △T=T2-T1=25min, r=0.5, and the corrected Ts=26+0.5*(24-26)=25. Then, this time it will run according to 24, and the parameters of scenario A will be modified (Ts=25). When the air conditioner turns on scenario A again, it will be controlled to run according to Ts1=25℃, fan speed=60, and humidity=50.
[0094] Furthermore, this invention also proposes a storage medium storing a control program for a smart home system. When the control program is executed by a processor, it implements the relevant steps of any of the above embodiments of the smart home system control method.
[0095] It should be noted that, in this document, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or system that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such a process, method, article, or system. Unless otherwise specified, an element defined by the phrase "comprising one..." does not exclude the presence of other identical elements in the process, method, article, or system that includes that element.
[0096] The sequence numbers of the above embodiments of the present invention are for descriptive purposes only and do not represent the superiority or inferiority of the embodiments.
[0097] Through the above description of the embodiments, those skilled in the art can clearly understand that the methods of the above embodiments can be implemented by means of software plus necessary general-purpose hardware platforms. Of course, they can also be implemented by hardware, but in many cases the former is a better implementation method. Based on this understanding, the technical solution of the present invention, or the part that contributes to the prior art, can be embodied in the form of a software product. This computer software product is stored in a storage medium (such as ROM / RAM, magnetic disk, optical disk) as described above, and includes several instructions to cause a terminal device (which may be a mobile phone, computer, server, control device of a smart home system, or network device, etc.) to execute the methods described in the various embodiments of the present invention.
[0098] The above are merely preferred embodiments of the present invention and do not limit the scope of the patent. Any equivalent structural or procedural transformations made based on the description and drawings of the present invention, or direct or indirect applications in other related technical fields, are similarly included within the scope of patent protection of the present invention.
Claims
1. A control method for a smart home system, characterized in that, The control method for the smart home system includes the following steps: When the smart home system activates the target scene, it controls the operation of the smart home system according to the preset scene parameters corresponding to the target scene. The preset scene parameters include device control parameters in at least two dimensions. When the device operating parameters of the target dimension in the at least two dimensions are adjusted to the target parameters, the device control parameters of the target dimension in the preset scene parameters are adjusted according to the device operating parameters and the target parameters, and the adjusted preset scene parameters are determined as the new preset scene parameters; When the smart home system runs the target scene again, the operation of the smart home system will be controlled according to the new preset scene parameters; The step of adjusting the device control parameters of the target dimension in the preset scene parameters according to the device operating parameters and the target parameters includes: The duration is determined based on the initial time and the current time. The initial time includes the starting time when the smart home system starts operating with the preset scene parameters or the time when the device operating parameters of the target dimension are adjusted before the current time. Determine the parameter difference between the target parameter and the equipment operating parameter; A parameter correction value is determined based on the duration and the parameter difference, wherein the parameter correction value is negatively correlated with the duration; The device control parameters of the target dimension are corrected based on the parameter correction values.
2. The control method for a smart home system as described in claim 1, characterized in that, The step of determining the duration based on the initial time and the current time includes: If the device operating parameters have not been adjusted before the current time, the duration is determined based on the start time and the current time; If the device operating parameters were adjusted to parameters other than the target parameters before the current time, the duration is determined based on the time when the device operating parameters were adjusted before the current time and the current time.
3. The control method for a smart home system as described in claim 2, characterized in that, The step of adjusting the device control parameters for the target dimension based on the duration, the device operating parameters, and the target parameters includes: If the device operating parameters were adjusted to parameters other than the target parameters before the current moment, the device control parameters of the target dimension are adjusted according to the duration, the device operating parameters, the other parameters, and the target parameters.
4. The control method for the smart home system as described in claim 3, characterized in that, The step of adjusting the device control parameters for the target dimension based on the duration, the device operating parameters, the other parameters, and the target parameters includes: The reference control parameters for the target dimension are determined based on the equipment operating parameters and the other parameters. The device control parameters for the target dimension are adjusted based on the reference control parameters, the duration, and the target parameters.
5. The control method for a smart home system as described in any one of claims 1 to 4, characterized in that, The step of adjusting the device control parameters of the target dimension in the preset scene parameters according to the device operating parameters and the target parameters when the device operating parameters of the target dimension in the at least two dimensions are adjusted to the target parameters, and determining the adjusted preset scene parameters as the new preset scene parameters, includes: When the device operating parameters of the target dimension in the at least two dimensions are adjusted to the target parameters, the corresponding electrical appliances are controlled to operate according to the target parameters, and the device control parameters of the target dimension in the preset scene parameters are adjusted according to the device operating parameters and the target parameters, and the adjusted preset scene parameters are determined as new preset scene parameters.
6. The control method for a smart home system as described in any one of claims 1 to 4, characterized in that, The smart home system includes an air conditioner, and the at least two dimensions include temperature, humidity, and wind speed.
7. A control device for a smart home system, characterized in that, The control device of the smart home system includes: a memory, a processor, and a control program of the smart home system stored in the memory and executable on the processor. When the control program of the smart home system is executed by the processor, it implements the steps of the control method of the smart home system as described in any one of claims 1 to 6.
8. A storage medium, characterized in that, The storage medium stores a control program for a smart home system, which, when executed by a processor, implements the steps of the control method for a smart home system as described in any one of claims 1 to 6.