Imaging system and method of controlling the same

CN122162364APending Publication Date: 2026-06-05ARASHI VISION INC

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
ARASHI VISION INC
Filing Date
2023-11-17
Publication Date
2026-06-05

Smart Images

  • Figure CN122162364A_ABST
    Figure CN122162364A_ABST
Patent Text Reader

Abstract

The application relates to an imaging system and a control method thereof. The method comprises: acquiring a user operation on an interactive device when a shooting device is in a video recording state; and processing a recorded video based on the user operation on the interactive device. The recorded video comprises a video segment recorded by the shooting device in the current video recording state. The method improves the efficiency of video processing.
Need to check novelty before this filing date? Find Prior Art

Description

Imaging system and control method thereof Technical Field

[0001] The present application relates to the field of photographing technology, and in particular to an imaging system and a control method thereof. Background Art

[0002] With the continuous development of camera technology, shooting equipment is becoming more and more widely used.

[0003] Taking sports cameras as an example, users can often use them to capture videos of sports scenes. However, during the recording process, the recorded video may appear blurry, invalid, or partially blurry, affecting the video quality. To address this issue, the video is usually retrieved and processed on the video playback page after recording is completed. This results in an overly cumbersome video processing method in related technologies.

[0004] Summary of the Invention

[0005] Based on this, it is necessary to provide an imaging system and a control method thereof to address the above technical problems, which can process the video during the video recording process and improve the video processing efficiency.

[0006] In a first aspect, the present application provides a method for controlling an imaging system, comprising:

[0007] When the camera is in a recording state, obtaining the user's operation on the interactive device;

[0008] Based on the user's operation on the interactive device, the recorded video is processed; the recorded video includes a video clip recorded by the shooting device in the current recording state.

[0009] In one embodiment, processing the recorded video based on the user's operation on the interactive device includes:

[0010] At least one video frame is deleted from the recorded video based on the user's operation on the interactive device.

[0011] In one embodiment, deleting at least one video frame from a recorded video based on a user operation on an interactive device includes:

[0012] When the user performs a first operation on the interactive device, the recorded video is deleted.

[0013] In one embodiment, after deleting at least one video frame from the recorded video, the control method of the imaging system further includes:

[0014] Control the camera to exit the recording state.

[0015] In one embodiment, when the camera is in a recording state, obtaining the user's operation on the interactive device includes:

[0016] When the camera is in a recording state, a user's operation on a recording element of the interactive device is obtained.

[0017] In one embodiment, processing the recorded video based on the user's operation on the interactive device includes:

[0018] In case the user performs a first operation on the recording element of the interactive device, deleting the recorded video;

[0019] When the user performs a second operation on the recording element of the interactive device, the recorded video is saved; the first operation and the second operation are different.

[0020] In one embodiment, the first operation includes: triggering a recording element of the interactive device for a first predetermined duration;

[0021] The second operation includes: triggering the recording element of the interactive device to last for a second preset time period; and the first preset time period is greater than the second preset time period.

[0022] In one embodiment, the first operation includes: triggering a recording element, and triggering the recording element again for a fourth preset time period within a third preset time period after triggering the recording element.

[0023] In one embodiment, processing the recorded video based on the user's operation on the interactive device includes:

[0024] When the user performs a third operation on the interactive device, obtaining a segment to be cut selected by the user from the recorded video;

[0025] Delete the segment to be cut from the recorded video and obtain the cut video.

[0026] In one embodiment, when the user performs a third operation on the interactive device, obtaining a segment to be cut selected by the user from the recorded video includes:

[0027] When the user performs a cut trigger operation on the interactive device, displaying a display element corresponding to the recorded video;

[0028] Based on the user's segment selection operation on the display element, the segment to be cut is determined.

[0029] In one embodiment, deleting the to-be-cut segment from a recorded video and obtaining a cut video includes:

[0030] According to the start time of the segment to be cut, the first video segment before the start time is obtained from the recorded video;

[0031] According to the end time of the segment to be cut, a second video segment after the end time is obtained from the recorded video;

[0032] The first video clip and the second video clip are spliced ​​together to obtain a cut video.

[0033] In one embodiment, the control method of the imaging system further includes:

[0034] When the user performs a third operation on the interactive device, controlling the camera to continue recording the video to obtain a continued video;

[0035] According to the cut video and the continued video, a supplementary recorded video is obtained.

[0036] In one embodiment, the control method of the imaging system further includes:

[0037] When the user performs the third operation on the interactive device, if the camera is controlled to be in a paused recording state, a video recording operation pop-up window is displayed after the cut video is obtained; the video recording operation pop-up window includes at least one operation option;

[0038] Receive a target operation option selected by the user from among various operation options;

[0039] Execute the operation corresponding to the target operation option.

[0040] In one embodiment, performing an operation corresponding to the target operation option includes:

[0041] If the target operation option is the continue recording option, the camera is controlled to continue recording the video;

[0042] If the target operation option is to stop recording, the recording state of the camera device is terminated and the cut video is saved;

[0043] If the target operation option is to delete the video, the cut video will be deleted.

[0044] In one embodiment, processing the recorded video based on the user's operation on the interactive device includes:

[0045] When the camera is in a recording state, obtaining the user's operation on the interactive device;

[0046] Based on the user's operation on the interactive device, at least one video frame is marked from the recorded video; the recorded video includes a video clip recorded by the shooting device in the current recording state.

[0047] In one embodiment, marking at least one video frame from a recorded video based on a user's operation on an interactive device includes:

[0048] When the user performs a mark triggering operation on the interactive device, displaying a display element corresponding to the recorded video;

[0049] Based on a moment marking operation performed by a user on a presentation element, a moment is marked on at least one video frame in a recorded video.

[0050] In one embodiment, the control method of the imaging system further includes:

[0051] When the camera ends recording, in response to a video clip insertion instruction triggered by the user for the recorded complete video, the insertion time mark is determined from various time marks in the complete video according to the time carried in the video clip insertion instruction;

[0052] The video clip carried in the video clip insertion instruction is inserted into the position corresponding to the insertion time mark.

[0053] In one embodiment, the control method of the imaging system further includes:

[0054] When the camera ends recording, in response to a video segment replacement instruction triggered by the user for the recorded complete video, a replacement time mark is determined from each time mark in the complete video according to the time carried in the video segment replacement instruction;

[0055] The video segment corresponding to the complete video replacement moment mark is replaced with the video segment carried in the video segment replacement instruction.

[0056] In one embodiment, processing the recorded video based on the user's operation on the interactive device includes:

[0057] obtaining target parameters based on user operations on the interactive device;

[0058] Based on the target parameters, the recorded video is processed to obtain the target video.

[0059] In one embodiment, processing the recorded video based on the target parameter to obtain the target video includes:

[0060] Control the camera to record and continue recording videos;

[0061] The target video is obtained according to the target parameters, the continued video and the recorded video.

[0062] In one embodiment, the target parameter includes an insertion position selected by the user from the recorded video, and obtaining the target video according to the target parameter, the continued video, and the recorded video includes:

[0063] Based on the insertion position, the continued video is inserted into the recorded video to obtain the target video.

[0064] In one embodiment, the method further comprises:

[0065] Deletes the video segment after the insert position in the recorded video.

[0066] In one embodiment, obtaining a target video according to target parameters, a continued video, and a recorded video includes:

[0067] Based on the target parameters, determining the target segment in the recorded video;

[0068] The target segment in the recorded video is replaced with the continued-recorded video to obtain the target video.

[0069] In one embodiment, the target parameters include a starting position selected by a user from a recorded video and a duration of a continued video; and determining a target segment in the recorded video based on the target parameters includes:

[0070] A target segment is determined from the recorded video according to the starting position and the duration of the continued video; the starting position is the same as the starting position of the target segment, and the duration of the target segment is the same as the duration of the continued video.

[0071] In one embodiment, the target parameters include a starting position and a target duration selected by a user from a recorded video; and determining a target segment in the recorded video based on the target parameters includes:

[0072] A target segment is determined from the recorded video according to a starting position and a target duration; the starting position is the same as the starting position of the target segment, and the duration of the target segment is the same as the target duration.

[0073] In one embodiment, the target parameters include a start position and an end position selected by a user from a recorded video; and determining a target segment in the recorded video based on the target parameters includes:

[0074] A video segment between a start position and an end position in the recorded video is determined as a target segment.

[0075] In a second aspect, an embodiment of the present application further provides an imaging system, comprising an imaging device, a memory, and a processor, wherein the memory stores a computer program, the processor is connected to the imaging device, and implements the steps of the method provided in any embodiment of the first aspect above when executing the computer program.

[0076] In a third aspect, the present application further provides a control device for an imaging system, comprising:

[0077] A first operation acquisition module is used to acquire the user's operation on the interactive device when the camera is in a recording state;

[0078] The processing module is used to process the recorded video based on the user's operation on the interactive device; the recorded video includes the video clips recorded by the shooting device in the current recording state.

[0079] In a fourth aspect, an embodiment of the present application provides a computer device comprising a memory and a processor, wherein the memory stores a computer program, and the processor implements the steps of the method provided in any embodiment of the first aspect when executing the computer program.

[0080] In a fifth aspect, an embodiment of the present application provides a computer-readable storage medium having a computer program stored thereon, which, when executed by a processor, implements the steps of the method provided in any embodiment of the first aspect above.

[0081] In a sixth aspect, an embodiment of the present application further provides a computer program product, comprising a computer program, which, when executed by a processor, implements the steps of the method provided in any embodiment of the first aspect above.

[0082] The imaging system and control method described above, when the camera is in the recording state, obtains the user's operation on the interactive device and processes the recorded video based on the user's operation on the interactive device; the recorded video includes the video clips recorded by the camera in the current recording state. In this method, the interactive device can be operated during the recording process of the camera, and the camera processes the recorded video based on the interactive device, allowing the user to quickly delete video files that are not desired or select parts of the recorded video. This reduces the tedious steps of processing the video after recording is completed and improves the efficiency and convenience of video processing. In addition, the video is processed during the video recording process, thereby avoiding the step of storing redundant video in the camera, and improving the memory space utilization of the camera. BRIEF DESCRIPTION OF THE DRAWINGS

[0083] In order to more clearly illustrate the technical solutions in the embodiments of the present application or related technologies, the following briefly introduces the drawings required for use in the embodiments or related technical descriptions. Obviously, the drawings described below are only some embodiments of the present application. For ordinary technicians in this field, other drawings can be obtained based on these drawings without paying any creative work.

[0084] FIG1 is a diagram illustrating an application environment of a control method for an imaging system according to an embodiment;

[0085] FIG2 is a schematic flow chart of a control method for an imaging system according to an embodiment;

[0086] FIG3 is a schematic flow chart of a control method for an imaging system according to another embodiment;

[0087] FIG4 is a schematic flow chart of a control method for an imaging system according to another embodiment;

[0088] FIG5 is a schematic flow chart of a control method for an imaging system in another embodiment;

[0089] FIG6 is a schematic flow chart of a control method for an imaging system according to another embodiment;

[0090] FIG7 is a schematic flow chart of a control method for an imaging system according to another embodiment;

[0091] FIG8 is a schematic flow chart of a control method for an imaging system according to another embodiment;

[0092] FIG9 is a schematic flow chart of a control method for an imaging system according to another embodiment;

[0093] FIG10 is a schematic flow chart of a control method for an imaging system according to another embodiment;

[0094] FIG11 is a schematic flow chart of a control method for an imaging system according to another embodiment;

[0095] FIG12 is a schematic flow chart of a control method for an imaging system according to another embodiment;

[0096] FIG13 is a schematic flow chart of a control method for an imaging system according to another embodiment;

[0097] FIG14 is a schematic flow chart of a control method for an imaging system according to another embodiment;

[0098] FIG15 is a schematic flow chart of a control method for an imaging system according to another embodiment;

[0099] FIG16 is a schematic flow chart of a control method for an imaging system according to another embodiment;

[0100] FIG17 is a block diagram of a control device for an imaging system according to an embodiment;

[0101] FIG18 is a diagram showing the internal structure of a computer device in one embodiment. DETAILED DESCRIPTION

[0102] In order to make the purpose, technical solutions and advantages of this application more clear, the following further describes this application in detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are only used to explain this application and are not intended to limit this application.

[0103] The control method of the imaging system provided in the embodiment of the present application can be applied in the application environment shown in Figure 1. The imaging system may include a shooting device and may also include related accessories, such as a remote control. The shooting device includes a camera and a computer device connected to the camera. The computer device may be built into the shooting device or connected to the outside of the shooting device; the computer device may be a terminal. The shooting device may be a camera, a mobile phone with a camera, a tablet computer, or other device with a shooting function. For example, the shooting device may be a sports camera 101 as shown in Figure 1, which includes a camera and a computer device connected to the camera.

[0104] In the related art, when a user records a video through a camera, if he does not want the video or a certain segment of the video during the recording process, he needs to delete the video or edit the corresponding segment of the video on the video playback page of the camera after the video recording is completed, which is quite cumbersome.

[0105] Based on this, an embodiment of the present application provides a control method for an imaging system, so that the user can process the recorded video when using the shooting device, without having to enter the video playback page to process the recorded video after the video recording is completed.

[0106] In an exemplary embodiment, as shown in FIG2 , a control method for an imaging system is provided, comprising the following steps:

[0107] S201 , when the camera is in a recording state, obtaining a user's operation on the interaction device.

[0108] The shooting device in the embodiment of the present application not only includes the function of starting recording and ending recording, but also includes a video deletion function in the recording state, which can delete videos or video clips during the video recording process.

[0109] The video deletion function may be provided on an interactive device corresponding to the shooting device. The user operates the interactive device, and the shooting device responds to the user's operation on the interactive device.

[0110] The interactive device may be a recording interface of the shooting device, a button of the shooting device, or a remote control device corresponding to the shooting device, which can control the functions of the shooting device.

[0111] Among them, the user can trigger the deletion operation of the video recorded by the shooting device by operating on the recording interface; the interactive device can also be a video deletion button on the shooting device, that is, the user clicks the video deletion button in the video recording state to trigger the video deletion operation; the interactive device can also be on the remote control device, by clicking the remote control device to trigger the video deletion operation.

[0112] S202, processing the recorded video based on the user's operation on the interactive device; the recorded video includes a video clip recorded by the shooting device in the current recording state.

[0113] The recorded video may be a video clip recorded by the shooting device in the current recording state under the current recording device before the user operates the interactive device.

[0114] The shooting device obtains the recorded video based on the user's operation of the interactive device and processes the recorded video. The processing of the recorded video can be any operation that causes the video to change compared to before processing, such as deleting or editing the recorded video. Editing can also include adding video clips to the recorded video, deleting video clips from the recorded video, and adding video effects, text, etc. to the recorded video.

[0115] That is, the user's operations on the interactive device may include deletion operations, editing operations, marking operations, etc. Different user operations on the interactive device correspond to different ways of processing the recorded video.

[0116] For example, a special effects trigger operation for adding special effects to a recorded video can be pre-set in a computer device. When the user's operation on the interactive device is a special effects trigger operation, the computer device can add special effects to the recorded video according to the pre-set special effects mode; wherein the special effects mode may include the specific content and specific method of adding.

[0117] Optionally, when the user's operation on the interactive device is a deletion operation, the computer device can directly delete the recorded video, thereby reducing the generation of waste films. Compared with the user going to the album page to delete after the recording is completed, the operation is greatly simplified.

[0118] The control method of the imaging system provided in the embodiment of the present application obtains the user's operation on the interactive device when the shooting device is in the recording state, and processes the recorded video based on the user's operation on the interactive device; the recorded video includes the video clip recorded by the shooting device in the current recording state. In this method, the interactive device can be operated during the recording process of the shooting device, and the shooting device processes the recorded video based on the interactive device, so that the user can quickly delete the video files that do not want to keep, or select some clips in the recorded video, thereby reducing the tedious steps of processing the video after the video recording is completed, and improving the efficiency and convenience of video processing; and, during the video recording process, the video is processed, thereby avoiding the step of storing waste films (segments that the user does not want) in the shooting device, and improving the memory space utilization of the shooting device.

[0119] Processing the recorded video includes deleting at least one frame of video from the recorded video. In an exemplary embodiment, processing the recorded video based on the user's operation of the interactive device includes: deleting at least one frame of video from the recorded video based on the user's operation of the interactive device.

[0120] The shooting device can delete at least one video frame from the recorded video based on the user's operation on the interactive device.

[0121] The camera device may pre-set a specific deletion method to delete all recorded video or a specific segment of a recorded video. After the user operates the interactive device, the camera device may automatically delete at least one frame from the recorded video according to the pre-set deletion method based on the user's operation of the interactive device. In some embodiments, after deleting at least one frame from the recorded video, the computer device may also control the camera device to exit the recording state.

[0122] This means that the user performs a corresponding operation on the interactive device, which is equivalent to the user wanting to cancel the video currently shot by the shooting device and end the recording without saving the video recorded by the shooting device.

[0123] In the control method of the imaging system in the embodiment of the present application, at least one frame of video is deleted from the recorded video based on the user's operation on the interactive device. In this method, during the recording process of the camera device, the user can operate the interactive device of the camera device, so that the camera device quickly deletes the recorded video or a portion of the recorded video based on the user's operation on the interactive device, thereby reducing the tedious steps of deleting the video after the video recording is completed and improving the efficiency and convenience of video processing. In addition, during the video recording process, video files that the user does not want to keep in the video are deleted, thereby avoiding the step of storing redundant video in the camera device and improving the memory space utilization of the camera device.

[0124] In an exemplary embodiment, deleting at least one video frame from a recorded video based on a user operation on an interaction device includes: deleting the recorded video when the user performs a first operation on the interaction device.

[0125] When the user performs the first operation on the interactive device, the computer device may delete the recorded video; and, in one embodiment, after deleting the recorded video, the computer device may control the camera to exit the recording state.

[0126] In this way, the user performs the first operation on the interactive device, which indicates that the user wants to cancel the video currently shot by the shooting device and end the recording without saving the video recorded by the shooting device.

[0127] Among them, taking the shutter button of the interactive device as an example, the way for the user to perform the first operation on the interactive device can be that the user continuously clicks the shutter button for a preset time period, indicating that the user performs the first operation on the interactive device; for example, the user continuously presses the shutter button for 1s to delete the recorded video and control the shooting device to exit the current recording state.

[0128] In the imaging system control method of the embodiments of the present application, a recorded video is deleted when a user performs a first operation on an interactive device. In this method, deleting a recorded video by performing the first operation on the interactive device allows the user to delete the video being recorded while the camera is in the recording state, thereby improving the speed and convenience of video deletion.

[0129] In one embodiment, the first operation may include: a deletion triggering operation and a confirmation operation of the deletion triggering operation.

[0130] The first operation includes a deletion trigger operation and a confirmation operation corresponding to the deletion trigger operation, that is, the user performs the first operation on the interactive device, including: the user performs the deletion trigger operation and the confirmation operation on the interactive device.

[0131] For example, continuing with the example of the interactive device being the shutter button of a camera, when the user clicks and holds the shutter button for a preset period of time, it can be determined that the user has executed a delete trigger operation on the shutter button. After the computer responds to the user's delete trigger operation, it confirms with the user whether to execute the delete trigger operation. The user can then confirm the delete trigger operation by continuing to operate the interactive device. For example, if the user holds the shutter button for 1 second, it is determined that the user has executed a delete trigger operation. If the user continues to hold the shutter button for 2 seconds, it is determined that the user has executed a delete trigger operation, and the video is deleted. If the user continues to hold the shutter button for less than 2 seconds, recording continues.

[0132] In some embodiments, during the confirmation operation of the deletion trigger operation, the user can be reminded that the shooting is about to be canceled through the screen "Canceling the shooting" or the motor vibration in the shooting device. At this time, if the user cancels the confirmation operation of the deletion trigger operation, the video recording will continue.

[0133] In some embodiments, the confirmation operation of the deletion trigger operation may also be performed by the user confirming on a pop-up window displayed on the interactive device asking whether the user confirms to cancel the shooting.

[0134] In some embodiments, after the computer device responds to the deletion trigger operation performed by the user, the computer device controls the screen of the shooting device to pop up a prompt pop-up window, and the prompt pop-up window displays an option to confirm the deletion trigger operation.

[0135] For example, after the user presses and holds the shutter button for 1 second, the screen of the shooting device displays the options of "Cancel shooting function option" and "Cut video function option" corresponding to the deletion trigger operation. After the user selects the cancel shooting function option, a prompt pop-up window pops up on the screen of the shooting device. The prompt pop-up window includes a yes option and a no option, further asking the user to confirm whether to confirm the deletion trigger operation.

[0136] If the user selects the yes option in the prompt pop-up window, the recording state of the camera will be terminated and the recorded video will be deleted; the video will not be saved in the memory card of the camera.

[0137] If the user selects the No option in the prompt pop-up window, the prompt pop-up window disappears, and the computer device controls the shooting device to continue to perform the video recording function, that is, continue to record the video.

[0138] In the imaging system control method of the embodiment of the present application, the first operation includes: a delete trigger operation and a delete trigger operation confirmation operation. By the user executing the delete trigger operation and confirming the delete trigger operation, the recorded video of the camera device is deleted. This allows the user to delete the video while it is being recorded without saving it in the camera device's memory, thereby improving the speed and intelligence of video deletion.

[0139] In one embodiment, when the shooting device is in a recording state, obtaining the user's operation on the interaction device includes: when the shooting device is in a recording state, obtaining the user's operation on the recording element of the interaction device.

[0140] When the shooting device is in the recording state, when the user operates the interactive device to delete the recorded video of the shooting device, the operation may be performed on the recording element of the interactive device, wherein the recording element may be the interactive area on the interactive device for interacting with the user.

[0141] The recording element of the interactive device may refer to a touchable control displayed on the recording interface of the camera device, including a control that can control the recording state of the camera device and the deletion of recorded videos. The recording element of the interactive device may also be a physical button on the camera device, which a user can operate to delete recorded videos, etc. The button may be a shutter button of the camera device.

[0142] The user may perform a first operation on the recording element of the interactive device to delete the recorded video, and after deleting the recorded video, control the camera to exit the recording state.

[0143] In the imaging system control method of the embodiment of the present application, when the camera is in a recording state, a user operation on a recording element of an interactive device is obtained. By operating the recording element of the interactive device, at least one frame of the video already recorded by the camera in the current recording state can be deleted, thereby improving the user's operation convenience and thus enhancing the convenience of video deletion.

[0144] In an exemplary embodiment, as shown in FIG3 , processing the recorded video based on the user's operation on the interactive device includes:

[0145] S301: When a user performs a first operation on a recording element of an interactive device, a recorded video is deleted.

[0146] The first operation includes: triggering a recording element of the interactive device to last for a first preset time period.

[0147] Taking the shutter button as an example, the first operation may be long-pressing the shutter button for a first preset duration while the camera is in the recording state. When the camera is in the recording state, the user long-presses the shutter button for the first preset duration. In response to the user long-pressing the shutter button for the first preset duration, the computer device deletes the recorded video of the camera and may control the camera to exit the recording state. The first preset duration may be 2 seconds.

[0148] Among them, when the user triggers the shutter button for a first preset time, the display screen can also display the progress of canceling the shooting loading circle and vibrate.

[0149] In some embodiments, the first preset duration is 1s. When the shooting device is in recording state, the user can press and hold the shutter button for 1s (first operation) to implement the deletion trigger operation. The "Cancel shooting function option" and "Cut video function option" can be displayed on the screen of the shooting device. The user clicks "Cancel shooting function option" (first operation). A prompt pop-up window pops up on the screen of the shooting device, and the prompt pop-up window displays an option to cancel the shooting. The user selects the yes option (first operation) on the prompt pop-up window, and the computer device deletes the recorded video in the shooting device.

[0150] In some embodiments, the conditions for a prompt pop-up window to pop up when the user continues to long press the shutter button for 2 seconds may also include: the progress of the loading circle of the shutter button is loaded and vibrates; that is, after the user continues to long press the shutter button for 2 seconds and the progress of the loading circle of the shutter button is loaded and vibrates, a prompt pop-up window pops up on the screen of the shooting device.

[0151] In some embodiments, the first preset duration may include a first target duration and a second target duration, the first target duration is 1s, and the second target duration is 2s. When the user performs a first operation on the recording element of the interactive device, deleting the recorded video may also be that when the shooting device is in a recording state, the user can press and hold the shutter key for 1s (first target duration) to implement a deletion trigger operation. At this time, the "Cancel shooting progress bar" progress bar can be displayed on the screen of the shooting device for a duration of 2S. The user continues to press and hold the shutter key for 2s (the second target duration is 2s), and the computer device deletes the recorded video in the shooting device.

[0152] It should be noted that the specific value of the first preset time length in the embodiment of the present application is not limited in this application, and in actual application, it can be determined according to actual conditions.

[0153] In some embodiments, while deleting the recorded video, the camera device can be controlled to exit the recording state and end the current recording; or the camera device can be controlled to continue recording the video.

[0154] S302: When the user performs a second operation on the recording element of the interactive device, save the recorded video; the first operation and the second operation are different.

[0155] The second operation includes: triggering the recording element of the interactive device for a second preset duration; the first preset duration is greater than the second preset duration. If the user triggers the recording element of the interactive device for the second preset duration, saving the recorded video.

[0156] The first preset duration can be 0.5s. Taking the shutter button as an example, when the shooting device is in the recording state, the user presses and holds the shutter button for 0.5s, and the computer device controls the shooting device to exit the recording state and save the recorded video.

[0157] Optionally, taking the shutter button as an example of the recording element of the interactive device, the second operation may also be clicking the shutter button when the shooting device is in the recording state.

[0158] When the shooting device is in a recording state, the user clicks the shutter button, and the computer device saves the recorded video of the shooting device in response to the user's operation of clicking the shutter button.

[0159] In one embodiment, while saving the recorded video, the camera device can also be controlled to exit the recording state to end the recording.

[0160] When the camera is in the recording mode, if it is detected that the duration of the user triggering the recording element of the interactive device reaches a first preset duration, the recorded video is saved; when the camera is in the recording mode, if it is detected that the duration of the user triggering the recording element of the interactive device reaches a second preset duration, the recorded video is deleted; wherein the second preset duration is greater than the first preset duration. In this way, different video processing methods are implemented for the recorded video based on different user triggering operations on the recording element of the interactive device. In this way, users can trigger individual elements according to actual needs, thereby simplifying the selection of video processing.

[0161] In the imaging system control method of the embodiment of the present application, when a user performs a first operation on a recording element of an interactive device, the recorded video is deleted; when the user performs a second operation on the recording element of the interactive device, the recorded video is saved; the first operation and the second operation are different. In this method, the first operation and the second operation are different, and the function implemented by the first operation and the function implemented by the second operation are also different. In this way, the user can perform corresponding operations according to actual needs to implement different video processing functions, thereby improving the intelligent selection of video processing.

[0162] In one embodiment, the first operation may also include: triggering a recording element, and triggering the recording element again for a fourth preset time period within a third preset time period after triggering the recording element.

[0163] Continuing with the example of the shutter button as the recording element, if the third preset time length is 1s and the fourth preset time length is 2s, if the user presses and holds the shutter button again for 2s within 1s after the user clicks the shutter button, the recorded video will be deleted; if the user does not press and hold the shutter button for 2s within 1s after the user clicks the shutter button, the shooting device can be controlled to stop recording.

[0164] It should be noted that when the user triggers the recording element of the interactive device for a fourth preset time period, the loading progress of the loading circle of the shutter button is completed and vibrates.

[0165] In an embodiment of the present application, the first operation may also include: triggering a recording element, and then triggering the recording element again for a fourth preset duration within a third preset duration after the recording element is triggered. In this method, when the recording element is triggered and then triggered again for the fourth preset duration within the third preset duration after the recording element is triggered, the recorded video is deleted. Deleting the recorded video through these two operations avoids accidentally triggering the recording element and causing the recorded element to be accidentally deleted.

[0166] In an exemplary embodiment, as shown in FIG4 , processing a recorded video based on a user's operation on an interactive device includes the following steps:

[0167] S401: When the user performs a third operation on the interactive device, a segment to be cut selected by the user from a recorded video is obtained.

[0168] The third operation may be a cut trigger operation, in which, when the user performs the cut trigger operation on the recording element of the interactive device, a segment to be cut selected by the user from the recorded video is obtained.

[0169] The cut trigger operation may be a pre-set operation. For example, the user may perform the cut trigger operation on the interactive device by continuously triggering the recording element of the interactive device for a preset time period.

[0170] Alternatively, the user can trigger the cut operation on the interactive device by long-pressing a recording element for 1 second while the camera is in recording mode. At this point, a "Cancel Shooting Function Option" and a "Cut Video Function Option" may be displayed on the camera screen, and the user clicks the "Cut Video Function Option." After the user clicks the "Cut Video Function Option," a segment to be cut selected by the user from the recorded video is obtained; the segment to be cut may be a segment of the video that the user does not want to cut.

[0171] In one embodiment, as shown in FIG5 , when the user performs the third operation on the interactive device, obtaining the segment to be cut selected by the user from the recorded video includes the following steps:

[0172] S501: When a user performs a cut trigger operation on an interactive device, a display element corresponding to a recorded video is displayed.

[0173] When the user performs a cut trigger operation on the interactive device, that is, when the user chooses to cut the video, the computer device can obtain the recorded video captured by the shooting device before the cut trigger operation is performed, and display the recorded video on the screen of the shooting device so that the user can cut the recorded video.

[0174] Among them, the display element corresponding to the recorded video can be a progress bar, so the computer device can display the recorded video and the corresponding progress bar on the screen of the shooting device.

[0175] S502: Determine a segment to be cut based on a segment selection operation performed by the user on a presentation element.

[0176] The user can perform a segment selection operation on the display element of the recorded video, and determine the video segment corresponding to the segment selection operation as the segment to be cut.

[0177] For example, in the interface of the video cutting function option, there is also a cutting box and a button to confirm cutting. The cutting box corresponds to the length of the cut video clip. The user can adjust the cutting box according to the cutting requirements and enlarge or reduce the cutting box; for example, the display element of the recorded video shows that the recorded video is 0-10s, and the user wants to cut a 5-8s video clip. Therefore, the user can adjust the cutting box and move the cutting box to the 5 to 8s video clip according to the display element of the recorded video. Then the user clicks the button to confirm cutting, thereby sending the information of the 5 to 8s clip to be cut to the computer device of the shooting device, thereby obtaining the clip to be cut selected by the user from the recorded video.

[0178] Optionally, if the segment to be cut that the user needs to cut is a video segment from the previous moment to the current moment, the user can drag the progress bar in the recorded video to the previous moment, and then use the video segment from the previous moment to the current moment as the segment to be cut and send it to the computer device.

[0179] It should be noted that the clip to be cut is the video clip that the user wants to delete from the recorded video. The clip to be cut can be multiple video clips, that is, the user can select multiple clips to be cut in the recorded video; for example, the recorded video is 0-10s, and the clips to be cut can be video clips of 2-5s and 8-10s.

[0180] S402: Delete the segment to be cut from the recorded video and obtain the cut video.

[0181] The clip to be cut is deleted from the recorded video, and the remaining clips in the recorded video are spliced ​​together to obtain a cut video of the recorded video.

[0182] Assume that a recorded video includes a segment to be cut. In an exemplary embodiment, as shown in FIG6 , deleting the segment to be cut from the recorded video and obtaining a cut video includes the following steps:

[0183] S601 : According to the start time of the segment to be cut, obtain the first video segment before the start time from the recorded video.

[0184] S602: According to the end time of the segment to be cut, obtain a second video segment after the end time from the recorded video.

[0185] S603: Splice the first video clip and the second video clip to obtain a cut video.

[0186] Obtain the start time and end time of the segment to be cut, and according to the start time of the segment to be cut, obtain a first video segment captured before the start time from the recorded video, and according to the end time of the segment to be cut, obtain a second video segment captured after the end time from the recorded video, and then splice the end time of the first video segment and the start time of the second video segment to obtain a cut video of the recorded video, where the cut video includes the first video segment and the second video segment.

[0187] Continuing with the example of the recorded video including 0-10s, if the segment to be cut is 5-8s, the first video segment is 0-5s, and the second video segment is 8-10s. Then, the video segments of 0-5s and 8-10s are spliced ​​together to obtain the cut video of the recorded video.

[0188] It should be noted that if there are multiple segments to be cut in the recorded video, based on the same principle as above, the segment to be cut will be deleted from the recorded video, and the remaining segments will be spliced ​​together in sequence according to the recording time.

[0189] In the imaging system control method of the embodiment of the present application, a first video segment before the start time of the segment to be cut is obtained from the recorded video, and a second video segment after the end time of the segment to be cut is obtained from the recorded video. The first and second video segments are then spliced ​​together to obtain a cut video. Users can selectively cut specific portions of the video as needed, removing unnecessary content or extracting important segments. By cutting the video and removing redundant or irrelevant content, the viewing experience is improved and the effectiveness of conveying information is enhanced.

[0190] In the imaging system control method of an embodiment of the present application, when a user performs a third operation on the interactive device, a segment to be cut selected by the user from the recorded video is obtained, and the segment to be cut is deleted from the recorded video to obtain a cut video. By deleting a portion of the recorded video based on the segment to be cut selected by the user, all video frames in the cut video are the video desired by the user, reducing redundant segments, improving the video quality of the cut video, and avoiding the need for the user to subsequently process the video.

[0191] In an exemplary embodiment, as shown in FIG7 , the embodiment includes the following steps:

[0192] S701: When the user performs a third operation on the interactive device, the camera is controlled to continue recording the video to obtain a continued video.

[0193] When the user performs the third operation on the interactive device, the shooting device can be controlled to continue recording the video, and the video recorded after the user triggers the third operation is determined as the continued video.

[0194] S702, obtaining a supplementary recorded video according to the cut video and the continued recorded video.

[0195] The cut video and the continued video are then spliced ​​together to obtain a supplementary recorded video. The supplementary recorded video can be obtained by splicing the video frame corresponding to the end time of the cut video with the video frame corresponding to the start time of the continued video. The supplementary recorded video can be applied to the cut video and the continued video.

[0196] Optionally, a preset splicing algorithm can be used to take the cut video and the continued video as inputs of the splicing algorithm, and the supplementary recorded video can be obtained by running the splicing algorithm; wherein the supplementary recorded video may include at least one video frame in the cut video and at least one video frame in the continued video.

[0197] In the imaging system control method of the embodiment of the present application, when a user performs a third operation on the interactive device, the camera is controlled to continue recording the video to obtain a continued video, and then a supplementary recorded video is obtained based on the cut video and the continued video. In this method, while the user is cutting the recorded video, the camera continues to record the video. This ensures that the camera can fully record the video, improves the accuracy and effectiveness of the recorded video, and avoids missing wonderful moments.

[0198] In an exemplary embodiment, as shown in FIG8 , the embodiment includes the following steps:

[0199] S801, when the user performs the third operation on the interactive device, if the camera is controlled to be in a paused recording state, after obtaining the cut video, a video recording operation pop-up window is displayed; the video recording operation pop-up window includes at least one operation option.

[0200] After the user performs the third operation on the interactive device, the shooting device can be controlled to be in a paused recording state. After the recorded video is cut to obtain the cut video, the screen of the shooting device can be controlled to display a video recording operation pop-up window, wherein the video recording operation pop-up window includes at least one operation option; for example, the video recording operation pop-up window may include options such as "Continue recording", "Stop recording" and "Delete video".

[0201] S802: Receive a target operation option selected by the user from among various operation options.

[0202] After the shooting device displays at least one operation option, the user can select an operation option from the various operation options, and the operation option selected by the user is used as the target operation option. The user can click on the operation option, and the computer device determines the target operation option selected by the user from the various operation options in response to the operation option clicked by the user.

[0203] For example, if the user clicks the "Continue Recording" option, the "Continue Recording" option selected by the user from each operation option is received, and the target operation option is determined as the Continue Recording option; if the user clicks the "Stop Recording" option, the "Stop Recording" option selected by the user from each operation option is received, and the target operation option is determined as the Stop Recording option; if the user clicks the "Delete Video" option, the "Delete Video" option selected by the user from each operation option is received, and the target operation option is determined as the Delete Video option.

[0204] S803: Execute the operation corresponding to the target operation option.

[0205] After receiving the target operation option selected by the user, the computer device performs the operation corresponding to the target operation option according to the target operation option.

[0206] In an exemplary embodiment, the operation corresponding to the target operation option is executed, including: if the target operation option is the continue recording option, controlling the shooting device to continue video recording; if the target operation option is the stop recording option, terminating the recording state of the shooting device and saving the cut video; if the target operation option is the delete video option, deleting the cut video.

[0207] Among them, if the target operation option is the continue recording option, it means that the video recording can continue, and the computer device can control the shooting device to continue the video recording, and continue to record the video after the cut video.

[0208] If the target operation option is a stop recording option, the computer device can terminate the recording state of the shooting device and save the cut video to the video playback page of the shooting device.

[0209] If the target operation option is the delete video option, the computer device can delete the cut video; optionally, if the target operation option is the delete video option, the computer device may not delete the cut video, but delete the recorded video, that is, the original video of the cut video, or the computer device may delete the cut video and the recorded video at the same time.

[0210] In the imaging system control method of an embodiment of the present application, when a user performs a third operation on the interactive device, if the camera is in a paused recording state, a pop-up window for video recording operations is displayed after the cut video is obtained. The pop-up window includes at least one operation option. The user then selects a target operation option from each operation option, and the operation corresponding to the target operation option is executed. In this method, the user can select an appropriate operation option in the pop-up window based on actual needs. The camera will receive the target operation option selected by the user from each operation option and execute the corresponding operation, providing greater flexibility.

[0211] When the camera is in the recording state, the recorded video can also be time-stamped. In this way, the time-stamping can be used to subsequently realize functions such as viewing specific video frames in the recorded video, inserting or replacing local videos in the recorded video, etc. In an exemplary embodiment, as shown in FIG9 , based on the user's operation on the interactive device, the recorded video is processed, including the following steps:

[0212] S901: When the camera is in a recording state, obtain the user's operation on the interactive device.

[0213] The user's operation on the interactive device may be the user performing the fourth operation on the interactive device; alternatively, it may also be the user performing the fourth operation on a recording element of the interactive device.

[0214] Among them, the fourth operation may include a mark trigger operation; the user can perform a mark trigger operation on the interactive device; taking the interactive device as a shutter key as an example, the user can perform a mark trigger operation on the interactive device according to the pre-set operation form of the mark trigger operation, and the computer device responds to the user's mark trigger device on the interactive device.

[0215] Optionally, the recording element of the interactive device can also be a mark trigger control on the screen of the shooting device, a mark trigger button on the shooting device, or a mark trigger button on the remote control of the shooting device, etc.; the user triggers the mark trigger operation by clicking the recording element of the interactive device.

[0216] S902, based on the user's operation on the interactive device, mark at least one video frame from the recorded video; the recorded video includes a video clip recorded by the shooting device in the current recording state.

[0217] Based on a user's marking trigger operation on the interactive device, a recorded video is obtained, and at least one video frame is marked from the recorded video.

[0218] Optionally, the method of marking at least one video frame from the recorded video may be to mark at least one video frame from the recorded video according to a preset video marking model; specifically, the recorded video is input into the video marking model, the recorded video is analyzed by the video marking model to obtain at least one video frame in the recorded video, and then the at least one video frame is marked accordingly to the recorded video; in some embodiments, marking at least one video frame can also be done by the user operating the interactive device to mark the video frame at the current moment.

[0219] Optionally, multiple video frames can be marked in the recorded video.

[0220] In the imaging system control method of an embodiment of the present application, while the camera is in a recording state, a user's operation on an interactive device is obtained, and based on the user's operation on the interactive device, at least one frame of video is marked from the recorded video; wherein the recorded video includes a video clip recorded by the camera in the current recording state. In this method, the user performs a corresponding operation on the interactive device and then marks at least one frame of video in the recorded video. This provides a basis for subsequent video processing and editing, thereby improving the convenience and accuracy of video processing.

[0221] In an exemplary embodiment, as shown in FIG10 , marking at least one video frame from a recorded video based on a user's operation on an interactive device includes the following steps:

[0222] S1001: When a user performs a mark triggering operation on an interactive device, a display element corresponding to a recorded video is displayed.

[0223] After the user performs a mark trigger operation on the interactive device, the computer device controls the shooting device to display the recorded video and the corresponding display elements in response to the mark trigger operation performed by the user on the interactive device.

[0224] Among them, the display element corresponding to the recorded video can be a progress bar of the recorded video.

[0225] S1002: Based on a time marking operation performed by a user on a presentation element, time marking is performed on at least one video frame in a recorded video.

[0226] The user may perform a time-marking operation on a display element of a recorded video, and the computer device may perform a time-marking operation on at least one video frame in the recorded video in response to the user's time-marking operation on the display element.

[0227] Among them, the moment marking operation can be triggered by the user's operation on the display elements and interactive devices; taking the display element as a progress bar as an example, when the shooting device is in the recording state, the user can view the video frames in the recorded video by dragging the progress bar. When the user wants to moment-mark a certain video frame, the user can drag the progress bar to the video frame to be moment-marked, and perform the moment-marking operation on the recording element of the interactive device. The computer marks the video frame to be moment-marked in the recorded video in response to the moment-marking operation.

[0228] Among them, the recording element can be a shutter key, a moment marking control on the screen of the shooting device, or a moment marking button of the shooting device, etc. The way for the user to perform the moment marking operation on the recording element of the interactive device can be that the user triggers the recording element in a preset manner; among them, the preset manner can be clicking, long pressing for a preset time, etc.

[0229] In the imaging system control method of an embodiment of the present application, when a user performs a mark trigger operation on an interactive device, a display element corresponding to a recorded video is displayed, and based on the user's mark operation on the display element, at least one frame in the recorded video is time-stamped. In this method, time-stamping the video frames in the recorded video facilitates subsequent video processing and editing; furthermore, time-stamping the video frames in the recorded video using the display element of the recorded video improves the efficiency of time-stamping.

[0230] Among them, the video clip can be inserted into the complete video through the time mark, and the video clip can also be used to replace the clip in the complete video. The following embodiment illustrates the method of inserting the video through the time mark. In an exemplary embodiment, as shown in Figure 11, the embodiment includes the following steps:

[0231] S1101, when the shooting device ends the recording state, in response to the video clip insertion instruction triggered by the user for the complete video recorded, the insertion moment mark is determined from the various moment marks in the complete video according to the moment carried in the video clip insertion instruction.

[0232] When the camera ends recording, the complete video recorded by the camera can be obtained, and the user can trigger a video clip insertion instruction in the complete video.

[0233] Among them, the user can send a video clip insertion instruction to the computer device, and the video clip insertion instruction may include a video identifier and a time. Therefore, the computer device can determine the complete video based on the video identifier in the video clip insertion instruction, and determine the insertion time mark from the various time marks in the complete video based on the time in the video clip insertion instruction.

[0234] For example, if the time carried in the video clip insertion instruction is 5s, the time corresponding to 5s in each time mark in the complete video can be determined as the insertion time mark.

[0235] S1102: Insert the video clip carried in the video clip insertion instruction into the position corresponding to the insertion time mark.

[0236] The video clip insertion instruction also includes the video clip to be inserted. After the computer device determines the insertion time mark, it can insert the video clip carried in the video clip insertion instruction into the position corresponding to the insertion time mark of the complete moment.

[0237] For example, the complete video includes 0-10s of video, the insertion time mark is 5s, and the video segment is a 4s video segment. Then, the 4s video segment can be inserted from the 5s position of the complete video, and the inserted video is 14s.

[0238] In the control method for an imaging system according to an embodiment of the present application, when the camera device ends recording, in response to a user-triggered video clip insertion instruction for a recorded complete video, an insertion time mark is determined from various time marks in the complete video based on the time contained in the video clip insertion instruction, and the video clip contained in the video clip insertion instruction is inserted into the position corresponding to the insertion time mark. In this method, the computer device can find the insertion position in the complete video based on the time contained in the video clip insertion instruction and insert the video clip into the position, thereby enabling editing and modification of the complete video to meet the user's specific video needs.

[0239] Below is an embodiment of the method for replacing a video clip in a complete video by a time mark. In an exemplary embodiment, as shown in Figure 12, the embodiment includes the following steps:

[0240] S1201, when the shooting device ends the recording state, in response to the video clip replacement instruction triggered by the user for the recorded complete video, the replacement moment mark is determined from the moment marks in the complete video according to the moment carried in the video clip replacement instruction.

[0241] When the camera ends recording, the complete video recorded by the camera can be obtained, and the user can trigger a video segment replacement command in the complete video.

[0242] Among them, the user can send a video clip replacement instruction to the computer device, and the video clip replacement instruction can include a video identifier and a time. Therefore, the computer device can determine the complete video based on the video identifier in the video clip insertion instruction, and determine the replacement time mark from the various time marks in the complete video based on the time in the video clip replacement instruction.

[0243] For example, the time carried in the video clip replacement instruction may be a plurality of consecutive time moments. For example, if the time carried in the video clip replacement instruction includes consecutive time moments of 5-8s, the replacement time moment is marked as 5-8s.

[0244] S1202: Replace the video segment corresponding to the complete video replacement moment mark with the video segment carried in the video segment replacement instruction.

[0245] The video clip replacement instruction also includes the video clip to be replaced. After determining the replacement time mark, the computer device can replace the video clip corresponding to the replacement time mark in the complete video with the video clip carried in the video clip replacement instruction to obtain the replaced complete video.

[0246] For example, the complete video includes 0-10s of video, the insertion time is marked as 5-8s, and the video segment carried in the video segment replacement instruction is a 4s video segment. Then, the video segment corresponding to 5-8s in the complete video can be directly replaced by the 4s video segment carried in the video segment replacement instruction, and a 10s video is still obtained.

[0247] In the control method for an imaging system in an embodiment of the present application, when the camera device ends recording, in response to a user-triggered video segment replacement instruction for a recorded complete video, a replacement time mark is determined from each time mark in the complete video based on the time carried in the video segment replacement instruction, and the video segment corresponding to the replacement time mark of the complete video is replaced with the video segment carried in the video segment replacement instruction. In this method, by responding to the video segment replacement instruction, finding the replacement position based on the replacement time mark, and replacing the video segment in the instruction with the corresponding video segment in the complete video, the complete video can be replaced and modified, thereby meeting the user's personalized video needs and providing a better video viewing experience.

[0248] In an exemplary embodiment, as shown in FIG13 , processing a recorded video based on a user's operation on an interactive device includes the following steps:

[0249] S1301: Acquire target parameters based on user operations on the interactive device.

[0250] The interactive device may be a button on the shooting device, a touch screen of a recording interface on the shooting device, or a remote control device corresponding to the shooting device.

[0251] The user performs a preset fifth operation on the interaction device, and the computer device obtains the target parameter in response to the fifth operation.

[0252] Among them, the target parameters can be generated after the user performs the fifth operation on the interactive device, or they can be pre-set parameters stored in the memory of the shooting device. After the user performs the fifth operation on the interactive device, the computer device obtains the target parameters from the memory.

[0253] Take the interactive device as an example of a parameter acquisition button on a shooting device. When the shooting device is in recording state, the user clicks the parameter acquisition button on the shooting device, and the computer device obtains the target parameters in response to the parameter acquisition button clicked by the user.

[0254] Optionally, acquiring the target parameter based on the user's operation on the interactive device may also include acquiring the target parameter based on the user's operation on a recording element of the interactive device.

[0255] Specifically, the recording element can be the progress bar of the recorded video in the recording interface of the shooting device. Taking the target parameter as the position as an example, the user can drag the progress bar of the recorded video according to user needs when the shooting device is in the recording state, and trigger it at a certain position in the recorded video. The computer device responds to the user's triggering of the position, obtains the position, and determines the position as the target parameter.

[0256] Among them, triggering a certain position of the recorded video may include: there is a position trigger button on the shooting device or there is a position trigger button on the recording interface, the user drags the progress of the recorded video to a certain position through the progress bar, and then clicks the position trigger button.

[0257] S1302: Process the recorded video based on the target parameters to obtain a target video.

[0258] The target video may be a video processed from a recorded video, and the target video is the video that the user ultimately needs.

[0259] The target parameter may include at least one position, and the method of processing the recorded video may include deleting the video frames corresponding to each position in the recorded video to obtain the target video.

[0260] The target parameter may include two positions, and the method of processing the recorded video may also include swapping the video frames corresponding to the two positions in the recorded video, and determining the swapped recorded video as the target video.

[0261] In the imaging system control method of the embodiment of the present application, target parameters are obtained based on user operation of the interactive device, and the recorded video is processed based on the target parameters to obtain the target video. In this method, the recorded video is directly processed using the target parameters while the camera is recording, thereby improving the efficiency of video processing.

[0262] In an exemplary embodiment, as shown in FIG14 , processing a recorded video based on target parameters to obtain a target video includes the following steps:

[0263] S1401, controlling the shooting device to record or continue recording the video.

[0264] After obtaining the target parameters, the computer device can control the shooting device to record and continue recording videos.

[0265] Among them, when the shooting device is in the recording state, after the user operates the interactive device, the computer device controls the shooting device to pause recording and obtain the target parameters. After obtaining the target parameters, the computer device controls the shooting device to continue recording, and the video recorded after the continued recording is used as the continued video.

[0266] Optionally, when the shooting device is in the recording state, after the user operates the interactive device, the computer device obtains the target parameters, and uses the video recorded after the user operates the interactive device as the continued video, and uses the video recorded before the user operates the interactive device as the recorded video.

[0267] S1402, obtaining a target video according to target parameters, the continued video and the recorded video.

[0268] Among them, the target parameter includes the insertion position selected by the user from the recorded video, the interactive device may include a video insertion control key, and when the user drags the progress bar of the recorded video to a certain position in the recorded video, the video insertion control key is triggered, and the computer device responds to the video insertion control key triggered by the user, and determines the position of the progress bar of the recorded video when the video insertion control key is triggered as the insertion position, that is, the insertion position selected by the user from the recorded video, and determines the insertion position as the target parameter.

[0269] In an exemplary embodiment, obtaining a target video according to target parameters, the continued-recorded video and the recorded video includes: inserting the continued-recorded video into the recorded video based on the insertion position to obtain the target video.

[0270] Based on the insertion position, the recorded video is divided into a first segment and a second segment. The end position of the video in the first segment is the insertion position, and the start position of the video in the second segment is the insertion position. Therefore, the end position of the video in the first segment is spliced ​​with the start position of the continued video, and the end position of the continued video is spliced ​​with the start position of the video of the second segment. That is, the first segment, the continued video and the second segment are spliced ​​in sequence to obtain the target video.

[0271] In an exemplary embodiment, the embodiment further includes: deleting the video segment after the insertion position in the recorded video.

[0272] Specifically, according to the insertion position of the recorded video in the target parameter, the video segment before the insertion position in the recorded video is spliced ​​with the continued video, and the video segment after the insertion position in the recorded video is deleted.

[0273] In the imaging system control method of the embodiment of the present application, a camera is controlled to record a continuous video, and a target video is obtained based on target parameters, the continuous video, and the already recorded video. In this method, the already recorded video is processed using the target parameters and the continuous video, thereby improving the processing speed of the already recorded video.

[0274] In an exemplary embodiment, as shown in FIG15 , obtaining a target video according to target parameters, a continued video, and a recorded video includes the following steps:

[0275] S1501: Determine a target segment in a recorded video based on target parameters.

[0276] In an exemplary embodiment, the target parameters include a starting position selected by the user from the recorded video and a duration of the continued video.

[0277] In which, the interactive device may include a first video replacement control key, which is triggered when the user drags the progress bar of the recorded video to a certain position in the recorded video. The computer device responds to the first video replacement control key triggered by the user and determines the position of the progress bar of the recorded video when the first video replacement control key is triggered as the starting position, that is, the starting position selected by the user from the recorded video.

[0278] The duration of the continued video can be a preset duration of the recorded continued video, and the computer device can also record the continued video according to the duration of the continued video.

[0279] Therefore, when the target parameters include the starting position selected by the user from the recorded video and the duration of the continued video, the target segment in the recorded video is determined based on the target parameters, including: determining the target segment from the recorded video according to the starting position and the duration of the continued video; the starting position is at the same position as the starting position of the target segment, and the duration of the target segment is the same as the duration of the continued video.

[0280] The target segment is the segment between the start point and the duration of the continued video. For example, if the recorded video is 0-10 seconds long, the start point is 3 seconds, and the continued video duration is 5 seconds, the target segment is the segment between 3 seconds and 8 seconds.

[0281] In another exemplary embodiment, the target parameters include a starting position and a target duration selected by the user from the recorded video.

[0282] In which, the interactive device may include a second video replacement control key, and when the user drags the progress bar of the recorded video to a certain position in the recorded video, the second video replacement control key is triggered. The computer device responds to the second video replacement control key triggered by the user, and determines the position of the progress bar of the recorded video when the second video replacement control key is triggered as the starting position, that is, the starting position selected by the user from the recorded video.

[0283] The target duration is a pre-set duration that can replace the video clip in the recorded video. Optionally, the duration of the continued video may be greater than the target duration.

[0284] Then, when the target parameters include the starting position and target duration selected by the user from the recorded video, the target segment in the recorded video is determined based on the target parameters, including: determining the target segment from the recorded video according to the starting position and the target duration; the starting position is at the same position as the starting position of the target segment, and the duration of the target segment is the same as the target duration.

[0285] The target segment is the segment between the start position and the target duration in the recorded video. For example, if the recorded video is 0-10 seconds long, the start position is 3 seconds, and the target duration is 5 seconds, the target segment is the segment between 3 seconds and 8 seconds.

[0286] In another exemplary embodiment, the target parameters include a start position and an end position selected by the user from the recorded video.

[0287] The interactive device may include a third video replacement control key. When the user drags the progress bar of the recorded video to the first position and the second position of the recorded video, the third video replacement control key is triggered respectively. In response to the third video replacement control key triggered by the user, the computer device determines the first position and the second position of the progress bar of the recorded video when the third video replacement control key is triggered as the starting position and the ending position respectively, that is, the starting position and the ending position selected by the user from the recorded video.

[0288] For example, if the moment corresponding to the first position is before the moment corresponding to the second position, the first position is determined as the starting position and the second position is determined as the ending position; if the moment corresponding to the second position is before the moment corresponding to the first position, the second position is determined as the starting position and the first position is determined as the ending position.

[0289] Then, when the target parameters include the starting position and the ending position selected by the user from the recorded video, the target segment in the recorded video is determined based on the target parameters, including: determining the video segment between the starting position and the ending position in the recorded video as the target segment.

[0290] S1502: Replace the target segment in the recorded video with the continued video to obtain the target video.

[0291] The target segment in the recorded video is replaced with the continued recorded video to obtain the target video.

[0292] If the duration of the continued video is greater than that of the target segment, the target segment in the recorded video will be replaced by the video segment corresponding to the duration of the target segment in the continued video in chronological order, and the replaced video will be determined as the target video; for example, if the target segment is 5s long and the segment of the continued video is 8s, the target segment in the recorded video will be replaced by the first 5s of the video segment in the continued video.

[0293] If the duration of the continued video is equal to the duration of the target segment, the target segment in the recorded video can be directly replaced with the continued video to obtain the target video.

[0294] In this embodiment, when the user is not satisfied with a certain segment of the recorded video, the user can perform a resume operation to re-record the video and replace the unsatisfactory segment.

[0295] If the duration of the continued video is shorter than the duration of the target segment, the target segment in the recorded video can be directly replaced with the continued video to obtain the target video; or the continued video can be replaced with the video segment corresponding to the duration of the continued video in the recorded video in chronological order.

[0296] For example, if the target segment is 8 seconds long and the segment of the continued video is 5 seconds long, the 8 seconds target segment in the recorded video will be replaced with the 5 seconds target segment; if the target segment is 8 seconds long and the segment of the continued video is 5 seconds long, the 5 seconds continued video will replace the first 5 seconds of the target segment.

[0297] In an embodiment of the present application, a target segment in a recorded video is determined based on target parameters, and the target segment in the recorded video is replaced with the continued video to obtain the target video. In this method, the video segment of the recorded video is replaced directly in the recording state of the camera device, which reduces the video processing steps on the video playback page and improves the video processing speed.

[0298] In an exemplary embodiment, the present application also provides a method for controlling an imaging system. Taking a motion camera as an example, as shown in FIG16 , the method includes the following steps:

[0299] S1601: When the motion camera is in a recording state, in response to a video processing instruction triggered by a user on the motion camera, display at least one video processing function option on the screen of the motion camera.

[0300] The video processing instruction may be triggered by the user pressing and holding the shutter button of the action camera for 1 second, and the video processing function options include a "cancel shooting function option" and a "cut video function option".

[0301] S1602: Receive a target video processing function option triggered by the user among various video processing function options.

[0302] S1603: If the target video processing function option is a cancel shooting function option, a pop-up window prompting whether to cancel shooting is displayed on the screen of the action camera; when at least one function option is displayed, if the user continues to press and hold the shutter button for 2 seconds, a pop-up window prompting whether to cancel shooting is displayed.

[0303] S1604: If the user selects yes in the prompt pop-up window, the video recording state of the motion camera is terminated and the video currently being recorded by the motion camera is deleted.

[0304] S1605: If the user selects "No" in the prompt pop-up window, the prompt pop-up window is canceled and the video recording continues.

[0305] S1606: If the target video processing function option is the cut video function option, then display the video frame captured at the time when the video processing instruction is triggered.

[0306] S1607: Receive the segment to be cut selected by the user in the video frame, and delete the segment to be cut from the video frame to obtain a cut video.

[0307] S1608: If the motion camera is in a stopped recording state during the video cutting process, a video recording operation pop-up window is displayed on the motion camera after the cutting is completed.

[0308] Among them, the video recording operation pop-up window includes options such as continue recording, delete video and stop recording.

[0309] S1609, if the user selects Continue Recording in the video recording operation pop-up window, the motion camera is controlled to continue video recording; if the user selects Stop Recording in the video recording operation pop-up window, the recording state of the motion camera is terminated and the cut video is saved; if the user selects Delete Video in the video recording operation pop-up window, the cut video is deleted.

[0310] When the camera is in recording mode, the video being recorded can include a progress bar. You can drag the progress bar to view previously shot video clips and cut the video. In addition, you can also mark time points during the recording process using the progress bar. When you want to insert a video or replace a new video clip at that time point, you can mark the time point. After the recording is completed, you can find the time point and insert or replace the video at that time point.

[0311] In addition, when the shooting device is in recording state, the recording screen may also include fast forward and fast rewind buttons, through which the video can be viewed; optionally, the fast rewind and fast forward functions may also be set on external buttons of the shooting device.

[0312] It should be understood that, although the various steps in the flowcharts involved in the various embodiments described above are displayed in sequence according to the instructions of the arrows, these steps are not necessarily executed in sequence in the order indicated by the arrows. Unless otherwise specified herein, there is no strict order restriction on the execution of these steps, and these steps can be executed in other orders. Moreover, at least a portion of the steps in the flowcharts involved in the various embodiments described above can include multiple steps or multiple stages, and these steps or stages are not necessarily executed and completed at the same time, but can be executed at different times, and the execution order of these steps or stages is not necessarily to be carried out in sequence, but can be executed in turn or alternately with other steps or at least a portion of steps or stages in other steps.

[0313] Based on the same inventive concept, embodiments of the present application also provide an imaging system control device for implementing the aforementioned imaging system control method. The solution provided by this device is similar to the solution described in the aforementioned method. Therefore, the specific limitations of one or more imaging system control device embodiments provided below can be found in the aforementioned limitations of the imaging system control method and will not be further elaborated here.

[0314] In an exemplary embodiment, as shown in FIG17 , an imaging system and a control device 1700 thereof are provided, including: a first operation acquisition module 1701 and a processing module 1702, wherein:

[0315] The first operation acquisition module 1701 is used to acquire the user's operation on the interactive device when the camera is in the recording state;

[0316] The processing module 1702 is used to process the recorded video based on the user's operation on the interactive device; the recorded video includes the video clips recorded by the camera in the current recording state.

[0317] In one embodiment, the processing module 1702 includes:

[0318] The first deleting unit is configured to delete at least one video frame from the recorded video based on a user operation on the interactive device.

[0319] In one embodiment, the first deletion unit includes:

[0320] The first deleting subunit is configured to delete the recorded video when the user performs a first operation on the interactive device.

[0321] In one embodiment, the apparatus 1700 further includes:

[0322] The first control module is used to control the shooting device to exit the recording state.

[0323] In one embodiment, the first operation acquisition module 1701 includes:

[0324] The first acquisition unit is configured to acquire, when the shooting device is in a recording state, an operation of a user on a recording element of the interactive apparatus.

[0325] In one embodiment, the processing module 1702 includes:

[0326] a second deleting unit, configured to delete the recorded video when the user performs a first operation on the recording element of the interactive device;

[0327] The saving unit is used to save the recorded video when the user performs a second operation on the recording element of the interactive device; the first operation and the second operation are different.

[0328] In one embodiment, the first operation includes: triggering a recording element of the interactive device for a first preset duration;

[0329] The second operation includes: triggering the recording element of the interactive device to last for a second preset time period; and the first preset time period is greater than the second preset time period.

[0330] In one embodiment, the first operation includes: triggering a recording element, and triggering the recording element again for a fourth preset time period within a third preset time period after triggering the recording element.

[0331] In one embodiment, the processing module 1702 includes:

[0332] A second obtaining unit is configured to obtain a segment to be cut selected by the user from the recorded video when the user performs a third operation on the interactive device;

[0333] The third obtaining unit is used to delete the segment to be cut from the recorded video and obtain the cut video.

[0334] In one embodiment, the second acquiring unit includes:

[0335] a display subunit, configured to display a display element corresponding to the recorded video when the user performs a cut trigger operation on the interactive device;

[0336] The first determining subunit is configured to determine a segment to be cut based on a segment selection operation performed by a user on a display element.

[0337] In one embodiment, the third acquiring unit includes:

[0338] A first acquisition subunit is configured to acquire, from the recorded video, a first video segment before the start time of the segment to be cut according to the start time of the segment to be cut;

[0339] A second acquisition subunit is configured to acquire, from the recorded video, a second video segment after the end time of the segment to be cut;

[0340] The third acquisition subunit is configured to splice the first video clip and the second video clip to obtain a cut video.

[0341] In one embodiment, the apparatus 1700 further includes:

[0342] a second control module, configured to control the camera to continue recording the video to obtain a continued video when the user performs a third operation on the interactive device;

[0343] The obtaining module is used to obtain the supplementary recorded video according to the cut video and the continued recorded video.

[0344] In one embodiment, the apparatus 1700 further includes:

[0345] A display module, configured to display a video recording operation pop-up window after obtaining the cut video when the user performs a third operation on the interactive device and the camera is controlled to be in a paused recording state; the video recording operation pop-up window includes at least one operation option;

[0346] A receiving module, configured to receive a target operation option selected by a user from among various operation options;

[0347] The execution module is used to execute the operation corresponding to the target operation option.

[0348] In one embodiment, the execution module includes:

[0349] A first judgment unit is configured to control the camera to continue recording the video if the target operation option is a continue recording option;

[0350] The second judgment unit is configured to terminate the recording state of the camera and save the cut video if the target operation option is a stop recording option;

[0351] The third judgment unit is configured to delete the cut video if the target operation option is a delete video option.

[0352] In one embodiment, the processing module 1702 includes:

[0353] A second operation acquisition module is used to acquire the user's operation on the interactive device when the camera is in a recording state;

[0354] The video marking module is used to mark at least one frame of video from the recorded video based on the user's operation on the interactive device; the recorded video includes a video clip recorded by the shooting device in the current recording state.

[0355] In one embodiment, the video tagging module includes:

[0356] A display unit, configured to display a display element corresponding to the recorded video when a user performs a mark triggering operation on the interactive device;

[0357] The marking unit is used to mark the time of at least one frame of the recorded video based on the user's time marking operation on the display element.

[0358] In one embodiment, the apparatus 1700 further includes:

[0359] a first determining module configured to, when the camera device ends recording, determine an insertion time marker from various time markers in the complete video in response to a video clip insertion instruction triggered by a user for the recorded complete video, based on the time carried in the video clip insertion instruction;

[0360] The inserting module is used to insert the video segment carried in the video segment inserting instruction into the position corresponding to the insertion time mark.

[0361] In one embodiment, the apparatus 1700 further includes:

[0362] a second determining module configured to, in response to a video segment replacement instruction triggered by a user for a recorded complete video when the camera device ends recording, determine a replacement time marker from each time marker in the complete video according to the time carried in the video segment replacement instruction;

[0363] The replacement module is used to replace the video segment corresponding to the complete video replacement moment mark with the video segment carried in the video segment replacement instruction.

[0364] In one embodiment, the processing module 1702 includes:

[0365] a fourth acquiring unit, configured to acquire target parameters based on a user operation on the interaction device;

[0366] The obtaining unit is used to process the recorded video based on the target parameters to obtain the target video.

[0367] In one embodiment, the obtaining unit comprises:

[0368] A control subunit, used to control the shooting device to record and continue recording videos;

[0369] The first obtaining subunit is used to obtain the target video according to the target parameters, the continued video and the recorded video.

[0370] In one embodiment, the target parameter includes an insertion position selected by a user from a recorded video, and the first obtaining subunit includes:

[0371] The second subunit is used to insert the continued video into the recorded video based on the insertion position to obtain the target video.

[0372] In one embodiment, the apparatus 1700 further includes:

[0373] The deletion module is used to delete the video segment after the insertion position in the recorded video.

[0374] In one embodiment, the first obtaining subunit includes:

[0375] a second determining subunit, configured to determine a target segment in the recorded video based on the target parameter;

[0376] The third subunit is used to replace the target segment in the recorded video with the continued video to obtain the target video.

[0377] In one embodiment, the target parameters include a starting position selected by the user from the recorded video and a duration of the continued video; the second determining subunit includes:

[0378] The third determining subunit is used to determine the target segment from the recorded video according to the starting position and the duration of the continued video; the starting position is the same as the starting position of the target segment, and the duration of the target segment is the same as the duration of the continued video.

[0379] In one embodiment, the target parameters include a starting position and a target duration selected by the user from a recorded video; and the second determining subunit includes:

[0380] The fourth determining subunit is used to determine a target segment from the recorded video according to a starting position and a target duration; the starting position is the same as the starting position of the target segment, and the duration of the target segment is the same as the target duration.

[0381] In one embodiment, the target parameters include a start position and an end position selected by a user from a recorded video; and the second determining subunit includes:

[0382] The fifth determining subunit is configured to determine a video segment between a start position and an end position in the recorded video as a target segment.

[0383] Each module in the control device of the imaging system described above may be implemented in whole or in part through software, hardware, or a combination thereof. Each module may be embedded in or independent of a processor in a computer device in hardware form, or may be stored in a computer device memory in software form, so that the processor can call and execute the corresponding operations of each module.

[0384] In an exemplary embodiment, a computer device is provided, which may be a server, and its internal structure diagram may be shown in Figure 18. The computer device includes a processor, a memory, an input / output interface (I / O), and a communication interface. The processor, the memory, and the input / output interface are connected via a system bus, and the communication interface is connected to the system bus via the input / output interface. The processor of the computer device is used to provide computing and control capabilities. The memory of the computer device includes a non-volatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, a computer program, and a database. The internal memory provides an environment for the operation of the operating system and computer program in the non-volatile storage medium. The database of the computer device is used to store video processing data. The input / output interface of the computer device is used to exchange information between the processor and an external device. The communication interface of the computer device is used to communicate with an external terminal via a network connection. When the computer program is executed by the processor, a control method for an imaging system is implemented.

[0385] Those skilled in the art will understand that the structure shown in Figure 18 is merely a block diagram of a portion of the structure related to the solution of the present application, and does not constitute a limitation on the computer device to which the solution of the present application is applied. The specific computer device may include more or fewer components than shown in the figure, or combine certain components, or have a different component arrangement.

[0386] In an exemplary embodiment, an imaging system is also provided, including an imaging device, a memory and a processor, wherein the memory stores a computer program, and the processor is connected to the imaging device and implements the steps in the above-mentioned method embodiments when executing the computer program.

[0387] The implementation principles and technical effects of each step implemented by the processor in the embodiment of the present application are similar to the principles of the control method of the above-mentioned imaging system, and will not be repeated here.

[0388] In an exemplary embodiment, a computer device is further provided, including a memory and a processor. The memory stores a computer program, and the processor implements the steps in the above method embodiments when executing the computer program.

[0389] The implementation principles and technical effects of each step implemented by the processor in the embodiment of the present application are similar to the principles of the control method of the above-mentioned imaging system, and will not be repeated here.

[0390] In an exemplary embodiment, a computer-readable storage medium is provided, on which a computer program is stored. When the computer program is executed by a processor, the steps in the above-mentioned method embodiments are implemented.

[0391] The implementation principles and technical effects of the various steps implemented when the computer program in the embodiment of the present application is executed by the processor are similar to the principles of the control method of the above-mentioned imaging system, and will not be repeated here.

[0392] In an exemplary embodiment, a computer program product is provided, including a computer program. When the computer program is executed by a processor, the steps in the above method embodiments are implemented.

[0393] The implementation principles and technical effects of the various steps implemented when the computer program in the embodiment of the present application is executed by the processor are similar to the principles of the control method of the above-mentioned imaging system, and will not be repeated here.

[0394] It should be noted that the data involved in this application (including but not limited to data used for analysis, stored data, displayed data, etc.) are all information and data authorized by the user or fully authorized by all parties, and the collection, use and processing of relevant data must comply with relevant regulations.

[0395] Those skilled in the art will appreciate that all or part of the processes in the above-mentioned embodiment methods can be implemented by instructing the relevant hardware through a computer program, and the computer program can be stored in a non-volatile computer-readable storage medium. When the computer program is executed, it can include the processes of the embodiments of the above-mentioned methods. Among them, any reference to memory, database or other media used in the embodiments provided in this application may include at least one of non-volatile and volatile memory. Non-volatile memory may include read-only memory (ROM), magnetic tape, floppy disk, flash memory, optical memory, high-density embedded non-volatile memory, resistive random access memory (ReRAM), magnetic random access memory (MRAM), ferroelectric random access memory (FRAM), phase change memory (PCM), graphene memory, etc. Volatile memory may include random access memory (RAM) or external cache memory, etc. By way of illustration and not limitation, RAM can be in various forms, such as static random access memory (SRAM) or dynamic random access memory (DRAM). The database involved in the various embodiments provided herein may include at least one of a relational database and a non-relational database. Non-relational databases may include, but are not limited to, distributed databases based on blockchains. The processor involved in the various embodiments provided herein may be, but are not limited to, a general-purpose processor, a central processing unit, a graphics processing unit, a digital signal processor, a programmable logic unit, a data processing logic unit based on quantum computing, and the like.

[0396] The technical features of the above embodiments can be combined arbitrarily. To make the description concise, not all possible combinations of the technical features in the above embodiments are described. However, as long as there is no contradiction in the combination of these technical features, they should be considered to be within the scope of this specification.

[0397] The above-described embodiments merely represent several implementation methods of the present application. While the descriptions are relatively specific and detailed, they should not be construed as limiting the scope of the present application. It should be noted that a person of ordinary skill in the art may make various modifications and improvements without departing from the spirit of the present application, and these modifications and improvements fall within the scope of protection of the present application. Therefore, the scope of protection of the present application shall be determined by the appended claims.

Claims

1. A control method for an imaging system, It is characterized in that The control method comprises: When the camera is in a recording state, obtaining the user's operation on the interactive device; Based on the user's operation on the interactive device, the recorded video is processed; the recorded video includes a video clip recorded by the shooting device in the current recording state.

2. The control method of the imaging system according to claim 1, It is characterized in that The processing of the recorded video based on the user's operation on the interactive device includes: Based on the user's operation on the interaction device, at least one video frame is deleted from the recorded video.

3. The control method of the imaging system according to claim 2, It is characterized in that The deleting at least one video frame from the recorded video based on the user's operation on the interactive device includes: When the user performs a first operation on the interaction device, the recorded video is deleted.

4. The control method of the imaging system according to claim 2, It is characterized in that After deleting at least one video frame from the recorded video, the method further includes: Control the shooting device to exit the recording state.

5. The control method of the imaging system according to claim 1, It is characterized in that The step of obtaining the user's operation on the interactive device when the camera is in a recording state includes: When the shooting device is in a recording state, an operation of the user on a recording element of the interaction device is obtained.

6. The control method of the imaging system according to claim 5, It is characterized in that The processing of the recorded video based on the user's operation on the interactive device includes: In a case where the user performs a first operation on a recording element of the interactive device, deleting the recorded video; When the user performs a second operation on the recording element of the interactive device, the recorded video is saved; the first operation and the second operation are different.

7. The control method of the imaging system according to claim 6, It is characterized in that The first operation includes: triggering a recording element of the interactive device for a first preset duration; The second operation includes: triggering a recording element of the interactive device to last for a second preset duration; and the first preset duration is greater than the second preset duration.

8. The control method of the imaging system according to claim 6, It is characterized in that The first operation includes: triggering the recording element, and triggering the recording element again for a fourth preset time duration within a third preset time duration after the recording element is triggered.

9. The control method of the imaging system according to claim 1, It is characterized in that The processing of the recorded video based on the user's operation on the interactive device includes: When the user performs a third operation on the interactive device, obtaining a segment to be cut selected by the user from the recorded video; The segment to be cut is deleted from the recorded video, and a cut video is obtained.

10. The control method of the imaging system according to claim 9, It is characterized in that In a case where the user performs a third operation on the interaction device, obtaining the to-be-cut segment selected by the user from the recorded video includes: In a case where the user performs a cut trigger operation on the interactive device, displaying a display element corresponding to the recorded video; The segment to be cut is determined based on the segment selection operation performed by the user on the display element.

11. The control method of the imaging system according to claim 9, It is characterized in that The step of deleting the to-be-cut segment from the recorded video and obtaining a cut video includes: According to the start time of the segment to be cut, obtaining the first video segment before the start time from the recorded video; According to the end time of the segment to be cut, obtaining a second video segment after the end time from the recorded video; The first video clip and the second video clip are spliced ​​together to obtain the cut video.

12. The control method of the imaging system according to claim 9, It is characterized in that The control method of the imaging system further includes: When the user performs the third operation on the interaction device, controlling the shooting device to continue recording the video to obtain a continued video; A supplementary recorded video is obtained according to the cut video and the continued recorded video.

13. The control method of the imaging system according to claim 10, It is characterized in that The control method of the imaging system further includes: In the case where the user performs a third operation on the interactive device, if the camera is controlled to be in a paused recording state, a video recording operation pop-up window is displayed after the cut video is obtained; the video recording operation pop-up window includes at least one operation option; receiving a target operation option selected by the user from among the operation options; Execute the operation corresponding to the target operation option.

14. The control method of the imaging system according to claim 13, It is characterized in that The executing operation corresponding to the target operation option includes: If the target operation option is a continue recording option, controlling the camera to continue recording the video; If the target operation option is a stop recording option, terminating the recording state of the camera device and saving the cut video; If the target operation option is a delete video option, the cut video is deleted.

15. The control method of the imaging system according to claim 1, It is characterized in that The processing of the recorded video based on the user's operation on the interactive device includes: Based on the user's operation on the interaction device, at least one video frame is marked from the recorded video.

16. The control method of the imaging system according to claim 15, It is characterized in that The step of marking at least one video frame from the recorded video based on the user's operation on the interactive device includes: When the user performs a mark trigger operation on the interactive device, displaying a display element corresponding to the recorded video; Based on the time marking operation of the user on the display element, at least one video frame in the recorded video is time marked.

17. The control method of the imaging system according to claim 15 or 16, It is characterized in that The control method of the imaging system further includes: When the shooting device ends the recording state, in response to a video segment insertion instruction triggered by the user for the recorded complete video, an insertion time mark is determined from various time marks in the complete video according to the time carried in the video segment insertion instruction; The video segment carried in the video segment insertion instruction is inserted into the position corresponding to the insertion time mark.

18. The control method of the imaging system according to claim 15 or 16, It is characterized in that The control method of the imaging system further includes: When the shooting device ends the recording state, in response to a video segment replacement instruction triggered by the user on the recorded complete video, a replacement time mark is determined from each time mark in the complete video according to the time carried in the video segment replacement instruction; The video segment corresponding to the replacement time mark of the complete video is replaced with the video segment carried in the video segment replacement instruction.

19. The control method of the imaging system according to claim 1, It is characterized in that The processing of the recorded video based on the user's operation on the interactive device includes: Acquiring target parameters based on the user's operation on the interaction device; Based on the target parameters, the recorded video is processed to obtain a target video.

20. The control method of the imaging system according to claim 19, It is characterized in that The step of processing the recorded video based on the target parameter to obtain the target video includes: Controlling the shooting device to record and continue recording video; The target video is obtained according to the target parameter, the continued-recording video and the recorded video.

21. The control method of the imaging system according to claim 20, It is characterized in that The target parameter includes an insertion position selected by the user from the recorded video, and obtaining the target video according to the target parameter, the continued video and the recorded video includes: Based on the insertion position, the continued video is inserted into the recorded video to obtain the target video.

22. The control method of the imaging system according to claim 21, It is characterized in that The control method further comprises: The video segment after the insert position in the recorded video is deleted.

23. The control method of the imaging system according to claim 20, It is characterized in that The step of obtaining the target video according to the target parameter, the continued video and the recorded video comprises: Based on the target parameter, determining a target segment in the recorded video; The target segment in the recorded video is replaced with the continued-recorded video to obtain the target video.

24. The control method of the imaging system according to claim 23, It is characterized in that The target parameters include a starting position selected by the user from the recorded video and a duration of the continued video; The step of determining a target segment in the recorded video based on the target parameter includes: Determining the target segment from the recorded video according to the starting position and the duration of the continued video; The starting position is at the same position as the starting position of the target segment, and the duration of the target segment is the same as the duration of the continued video.

25. The control method of the imaging system according to claim 23, It is characterized in that The target parameters include a starting position and a target duration selected by the user from the recorded video; The step of determining a target segment in the recorded video based on the target parameter includes: Determining the target segment from the recorded video according to the starting position and the target duration; The starting position is at the same position as the starting position of the target segment, and the duration of the target segment is the same as the target duration.

26. The control method of the imaging system according to claim 23, It is characterized in that The target parameters include a start position and an end position selected by the user from the recorded video; and determining a target segment in the recorded video based on the target parameters includes: A video segment between the start position and the end position in the recorded video is determined as the target segment.

27. An imaging system comprising an imaging device, a memory and a processor, wherein the memory stores a computer program, It is characterized in that The processor is connected to the imaging device and implements the steps of the video processing method according to any one of claims 1 to 26 when executing the computer program.