CN117939084A - Monitoring management system for video splicing processing - Google Patents
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Abstract
本发明公开了一种基于视频拼接处理用监控管理系统,本发明涉及图像护理技术领域,包括监控模块、处理模块、地图模块、修正模块、显示模块以及预警模块,监控模块包括记录单元以及储存单元,记录单元主要用于多个监控器所录制的视频进行分别传输至储存单元以及监控模块中,并通过储存单元对监控数据进行储存,本发明的优点在于:通过监控模块对周围进行拍摄视频记录,并通过图片识别单元将两个视频中未拍摄到的地形进行补充,并通过显示模块将修正模块中的视频进行显示,利用修正模块将图片识别单元中可移动物品的数据传输至模型绘制单元中,并在监控模块中监控到可移动物品,能够对部分未监控到的物品进行模拟拍摄。
The present invention discloses a monitoring and management system based on video splicing processing, which relates to the field of image care technology, and includes a monitoring module, a processing module, a map module, a correction module, a display module and an early warning module. The monitoring module includes a recording unit and a storage unit. The recording unit is mainly used for transmitting videos recorded by multiple monitors to the storage unit and the monitoring module respectively, and storing the monitoring data through the storage unit. The advantages of the present invention are: the surrounding video is recorded by the monitoring module, and the terrain not captured in the two videos is supplemented by the image recognition unit, and the video in the correction module is displayed by the display module, and the data of movable objects in the image recognition unit is transmitted to the model drawing unit by the correction module, and the movable objects are monitored in the monitoring module, so that some of the objects not monitored can be simulated and photographed.
Description
技术领域Technical Field
本发明涉及图像处理技术领域,具体为一种基于视频拼接处理用监控管理系统。The present invention relates to the technical field of image processing, and in particular to a monitoring and management system based on video splicing processing.
背景技术Background technique
监控管理系统可以用于视频拼接处理,通过监控管理系统可以对不同摄像头拍摄的视频进行实时监控和管理。在视频拼接处理中,监控管理系统可以帮助用户实时查看不同摄像头拍摄的视频,并进行拼接和处理操作。同时,监控管理系统还可以提供视频存储和回放功能,方便用户对已经拼接处理的视频进行查看和管理。通过监控管理系统,用户可以更加方便地进行视频拼接处理,提高工作效率和监控管理的便利性;The monitoring management system can be used for video splicing. Through the monitoring management system, the videos shot by different cameras can be monitored and managed in real time. In the video splicing process, the monitoring management system can help users view the videos shot by different cameras in real time, and perform splicing and processing operations. At the same time, the monitoring management system can also provide video storage and playback functions, which is convenient for users to view and manage the spliced videos. Through the monitoring management system, users can perform video splicing more conveniently, improve work efficiency and the convenience of monitoring management;
但是在对监控视频进行拼接在一个显示屏的情况下,可能会出现两个视频之间出现无法拍摄到的位置,导致物品无法进行监控的情况,为此,我们提出一种基于视频拼接处理用监控管理系统。However, when the surveillance videos are spliced on a display screen, there may be positions between the two videos that cannot be captured, resulting in the inability to monitor items. For this reason, we propose a surveillance management system based on video splicing processing.
发明内容Summary of the invention
本发明的目的在于提供一种基于视频拼接处理用监控管理系统。The purpose of the present invention is to provide a monitoring and management system based on video splicing processing.
以解决上述背景技术中提出的问题,本发明提供如下技术方案:一种基于视频拼接处理用监控管理系统,包括监控模块、处理模块、地图模块、修正模块、显示模块以及预警模块;To solve the problems raised in the above background technology, the present invention provides the following technical solutions: a monitoring and management system based on video splicing processing, comprising a monitoring module, a processing module, a map module, a correction module, a display module and an early warning module;
所述监控模块包括记录单元以及储存单元,所述记录单元主要用于多个监控器所录制的视频进行分别传输至储存单元以及监控模块中,并通过储存单元对监控数据进行储存;The monitoring module includes a recording unit and a storage unit. The recording unit is mainly used to transmit the videos recorded by multiple monitors to the storage unit and the monitoring module respectively, and store the monitoring data through the storage unit;
所述地图模块包括图片识别单元以及模型绘制单元,所述图片识别单元主要用于将图片中的内容进行识别,并将数据传输至建模绘制单元,通过建模绘制单元对储存单元中信息进行调取并进行建模绘制,并将建模重合部分进行拼接,并对图片中移动信息做记录,在视频中移动的物品移动至图片识别单元中的数据中,通过模型绘制单元对在图片识别单元中的数据进行模拟,并当移动信息出现在拼接位置的信息后进行显示位置,将数据传输至处理模块中;The map module includes a picture recognition unit and a model drawing unit. The picture recognition unit is mainly used to recognize the content in the picture and transmit the data to the model drawing unit. The model drawing unit retrieves the information in the storage unit and performs model drawing, splices the overlapping parts of the modeling, and records the movement information in the picture. The moving objects in the video are moved to the data in the picture recognition unit. The model drawing unit simulates the data in the picture recognition unit, and displays the position when the movement information appears after the information of the splicing position, and transmits the data to the processing module;
所述处理模块包括分析单元以及拼接单元,所述分析单元主要用于将多个视频进行分析,并将视频中有周围相近的图片进行分类,将数据传输至拼接单元以及地图模块中,所述拼接单元将视频中的图片进行对接,并通过拉伸以及挤压将视频中内容对接,并将数据传输至修正模块以及储存单元;The processing module includes an analysis unit and a splicing unit. The analysis unit is mainly used to analyze multiple videos, classify the pictures with similar surroundings in the videos, and transmit the data to the splicing unit and the map module. The splicing unit docks the pictures in the videos, docks the contents in the videos by stretching and squeezing, and transmits the data to the correction module and the storage unit.
所述修正模块包括测算单元以及补正单元,所述测算单元主要用于将监控模块中所拍摄视频之间出现的未重合位置进行计算,并通过物体从一个视频中的移动速度到另一个视频中所出现的时间进行计算,并通过补正单元将数据地图模块中的信息进行修正,并将数据传输至显示模块中;The correction module includes a measuring unit and a correction unit. The measuring unit is mainly used to calculate the non-overlapping positions between the videos shot in the monitoring module, and calculate the time from the moving speed of the object in one video to the time when it appears in another video, and correct the information in the data map module through the correction unit, and transmit the data to the display module;
所述显示模块主要用于将修正模块的图像数据进行显示;The display module is mainly used to display the image data of the correction module;
所述预警模块主要用于对显示模块中的内容进行监控,并通过视频中异常信息在储存单元中进行标记。The early warning module is mainly used to monitor the content in the display module and mark the abnormal information in the video in the storage unit.
作为本发明的进一步方案:所述记录单元通过监控器、摄像机等可摄影设备,并通过2.4G、4G、网线等将记录单元数据传输至储存单元以及地图模块中。As a further solution of the present invention: the recording unit transmits the recording unit data to the storage unit and the map module through a monitor, a camera or other photographic equipment, and through 2.4G, 4G, a network cable or the like.
作为本发明的进一步方案:所述人员主要通过手机等可摄影摄像设备对监控周围拍摄的图片,并通过通信将图片数据传输至图片识别单元中。As a further solution of the present invention: the personnel mainly use mobile phones and other photographic and video equipment to monitor the surrounding areas and transmit the picture data to the picture recognition unit through communication.
作为本发明的进一步方案:所述模型绘制单元将拍摄中的地形信息以及活动信息进行建模,并通过图片识别单元中的信息进行建模与监控模块中的数据重合后进行拼接,然后绘制成虚拟图像。As a further solution of the present invention: the model drawing unit models the terrain information and activity information in the shooting, and models the information in the picture recognition unit and splices it after overlapping with the data in the monitoring module, and then draws it into a virtual image.
作为本发明的进一步方案:所述分析单元将视频中有重合位置的视频进行计算,并通过拼接单元将视频进行拼接,同时通过地图模块与未相关的视频内容进行比较,将视频所拍摄的位置进行确定,便于后续对视频内容进行补正画面。As a further solution of the present invention: the analysis unit calculates the videos with overlapping positions in the videos, and splices the videos through the splicing unit, and at the same time compares them with unrelated video content through the map module to determine the location where the video was shot, so as to facilitate the subsequent correction of the video content.
作为本发明的进一步方案:所述测试单元对两个监控模块中所拍摄位置之间出现的距离进行计算,并对视频中移动速度进行计算。As a further solution of the present invention: the testing unit calculates the distance between the shooting positions in the two monitoring modules and calculates the moving speed in the video.
作为本发明的进一步方案:所述补正单元通过将测试单元中的数据传输至模型绘制单元,并模拟视频中物体移动速度在地图模块中的移动速度以及方向,并通过补正单元将数据转换为视频,并将数据传输至显示模块。As a further solution of the present invention: the correction unit transmits the data in the test unit to the model drawing unit, simulates the moving speed and direction of the object in the video in the map module, converts the data into video through the correction unit, and transmits the data to the display module.
作为本发明的进一步方案:所述显示模块将拼接后的视频进行播放,并对将修正模块中的视频进行播放。As a further solution of the present invention: the display module plays the spliced video and plays the video in the correction module.
作为本发明的进一步方案:所述预警模块通过对异常信息进行警报和储存,并且对监控数据进行分析,生产相应的分析与报告。As a further solution of the present invention: the early warning module generates corresponding analysis and reports by alerting and storing abnormal information and analyzing monitoring data.
采用上述技术方案,与现有技术相比,本发明的有益效果在于:By adopting the above technical solution, compared with the prior art, the beneficial effects of the present invention are:
1、本发明通过监控模块对周围进行拍摄视频记录,并通过图片识别单元将两个视频中未拍摄到的地形进行补充,并通过显示模块将修正模块中的视频进行显示,利用修正模块将图片识别单元中可移动物品的数据传输至模型绘制单元中,并在监控模块中监控到可移动物品时,则通过预警模块进行预警,能够对部分未监控到的物品进行模拟拍摄;1. The present invention records the surrounding video through the monitoring module, supplements the terrain not captured in the two videos through the image recognition unit, displays the video in the correction module through the display module, transmits the data of the movable object in the image recognition unit to the model drawing unit through the correction module, and issues an early warning through the early warning module when the movable object is monitored in the monitoring module, so as to simulate the shooting of some of the objects not monitored;
2、本发明通过图片识别单元以及模型绘制单元将监控模块未拍摄到的位置进行拍摄,并对物体移动在未拍摄路段的二分之一处依旧处于始发状态,并在模型绘制单元的路线中模拟物品移动,并根据初始速度在前半段进行正面模拟移速,并在后半段依照正常判断进行显示,并在视频拍摄到显示之间延迟在3秒左右,能够在显示模块上进行显示出完整视频;2. The present invention uses the image recognition unit and the model drawing unit to shoot the position that the monitoring module has not captured, and the object movement is still in the starting state at half of the unfilmed section, and simulates the movement of the object in the route of the model drawing unit, and simulates the movement speed in the first half according to the initial speed, and displays it according to normal judgment in the second half, and the delay between video shooting and display is about 3 seconds, and the complete video can be displayed on the display module;
3、本发明通过对图片识别单元中的可移动物品的图像信息进行标记,当监控模块正难过识别到移动数据,然后预警模块进行预警,同时通过移动速度物体在未被拍摄的位置滞留时间过长时,通过预警模块对物品以及人员进行拍摄,并且对人员进行分析与相应报告,能够对未拍摄位置的信息进行补充以及对拍摄位置的物体进行预警。3. The present invention marks the image information of movable objects in the image recognition unit. When the monitoring module is unable to recognize the mobile data, the early warning module will issue an early warning. At the same time, when the moving speed of the object stays in a position that has not been photographed for too long, the early warning module will photograph the objects and personnel, analyze the personnel and issue corresponding reports, so as to supplement the information of the unphotographed position and issue an early warning for the objects in the photographed position.
附图说明BRIEF DESCRIPTION OF THE DRAWINGS
图1为本发明实施例中系统流程图。FIG. 1 is a system flow chart of an embodiment of the present invention.
具体实施方式Detailed ways
下面结合附图对本发明的具体实施方式作进一步说明。在此需要说明的是,对于这些实施方式的说明用于帮助理解本发明,但并不构成对本发明的限定。此外,下面所描述的本发明各个实施方式中所涉及的技术特征只要彼此之间未构成冲突就可以相互组合。The specific embodiments of the present invention are further described below in conjunction with the accompanying drawings. It should be noted that the description of these embodiments is used to help understand the present invention, but does not constitute a limitation of the present invention. In addition, the technical features involved in the various embodiments of the present invention described below can be combined with each other as long as they do not conflict with each other.
实施例一、请参阅附图1,本发明提供一种技术方案:该基于视频拼接处理用监控管理系统,包括监控模块、处理模块、地图模块、修正模块、显示模块以及预警模块;Embodiment 1, please refer to FIG1 , the present invention provides a technical solution: the monitoring and management system based on video splicing processing includes a monitoring module, a processing module, a map module, a correction module, a display module and an early warning module;
所述监控模块包括记录单元以及储存单元,所述记录单元主要用于多个监控器所录制的视频进行分别传输至储存单元以及监控模块中,并通过储存单元对监控数据进行储存;The monitoring module includes a recording unit and a storage unit. The recording unit is mainly used to transmit the videos recorded by multiple monitors to the storage unit and the monitoring module respectively, and store the monitoring data through the storage unit;
所述地图模块包括图片识别单元以及模型绘制单元,所述图片识别单元主要用于将图片中的内容进行识别,并将数据传输至建模绘制单元,通过建模绘制单元对储存单元中信息进行调取并进行建模绘制,并将建模重合部分进行拼接,并对图片中移动信息做记录,在视频中移动的物品移动至图片识别单元中的数据中,通过模型绘制单元对在图片识别单元中的数据进行模拟,并当移动信息出现在拼接位置的信息后进行显示位置,将数据传输至处理模块中;The map module includes a picture recognition unit and a model drawing unit. The picture recognition unit is mainly used to recognize the content in the picture and transmit the data to the model drawing unit. The model drawing unit retrieves the information in the storage unit and performs model drawing, splices the overlapping parts of the modeling, and records the movement information in the picture. The moving objects in the video are moved to the data in the picture recognition unit. The model drawing unit simulates the data in the picture recognition unit, and displays the position after the movement information appears in the information of the splicing position, and transmits the data to the processing module.
所述处理模块包括分析单元以及拼接单元,所述分析单元主要用于将多个视频进行分析,并将视频中有周围相近的图片进行分类,将数据传输至拼接单元以及地图模块中,所述拼接单元将视频中的图片进行对接,并通过拉伸以及挤压将视频中内容对接,并将数据传输至修正模块以及储存单元;The processing module includes an analysis unit and a splicing unit. The analysis unit is mainly used to analyze multiple videos, classify the pictures with similar surroundings in the videos, and transmit the data to the splicing unit and the map module. The splicing unit docks the pictures in the videos, docks the contents in the videos by stretching and squeezing, and transmits the data to the correction module and the storage unit.
所述修正模块包括测算单元以及补正单元,所述测算单元主要用于将监控模块中所拍摄视频之间出现的未重合位置进行计算,并通过物体从一个视频中的移动速度到另一个视频中所出现的时间进行计算,并通过补正单元将数据地图模块中的信息进行修正,并将数据传输至显示模块中;The correction module includes a measuring unit and a correction unit. The measuring unit is mainly used to calculate the non-overlapping positions between the videos shot in the monitoring module, and calculate the time from the moving speed of the object in one video to the time when it appears in another video, and correct the information in the data map module through the correction unit, and transmit the data to the display module;
所述显示模块主要用于将修正模块的图像数据进行显示;The display module is mainly used to display the image data of the correction module;
所述预警模块主要用于对显示模块中的内容进行监控,并通过视频中异常信息在储存单元中进行标记。The early warning module is mainly used to monitor the content in the display module and mark the abnormal information in the video in the storage unit.
请参阅附图1,所述记录单元通过监控器、摄像机等可摄影设备,并通过2.4G、4G、网线等将记录单元数据传输至储存单元以及地图模块中,所述人员主要通过手机等可摄影摄像设备对监控周围拍摄的图片,并通过通信将图片数据传输至图片识别单元中,所述模型绘制单元将拍摄中的地形信息以及活动信息进行建模,并通过图片识别单元中的信息进行建模与监控模块中的数据重合后进行拼接,然后绘制成虚拟图像,所述分析单元将视频中有重合位置的视频进行计算,并通过拼接单元将视频进行拼接,同时通过地图模块与未相关的视频内容进行比较,将视频所拍摄的位置进行确定,便于后续对视频内容进行补正画面;Please refer to Figure 1. The recording unit transmits the recording unit data to the storage unit and the map module through a monitor, a camera and other photographic equipment, and through 2.4G, 4G, a network cable and the like. The personnel mainly use mobile phones and other photographic equipment to monitor the surrounding area and take pictures, and transmit the picture data to the picture recognition unit through communication. The model drawing unit models the terrain information and activity information in the shooting, and models the information in the picture recognition unit and splices it with the data in the monitoring module after it overlaps, and then draws it into a virtual image. The analysis unit calculates the video with overlapping positions in the video, and splices the video through the splicing unit. At the same time, it compares it with the unrelated video content through the map module, and determines the position where the video is shot, so as to facilitate the subsequent correction of the video content.
本实施例中,通过公式并在两个视频是要说关羽拍摄内容有交接的情况下带入①中,在两个视频所拍摄内容不相干的情况下带入②中,P表示拼接后的结果,R表示视频拍摄的内容以及面积,L表示监控周围的地图信息。In this embodiment, the formula And when the contents shot in the two videos overlap, they are brought into ①; when the contents shot in the two videos are unrelated, they are brought into ②. P represents the result after stitching, R represents the contents and area shot in the video, and L represents the map information of the monitored surroundings.
在使用时,通过监控模块对周围进行拍摄视频记录,并通过图片识别单元将两个视频中未拍摄到的地形进行补充,并通过显示模块将修正模块中的视频进行显示,利用修正模块将图片识别单元中可移动物品的数据传输至模型绘制单元中,并在监控模块中监控到可移动物品时,则通过预警模块进行预警。When in use, the monitoring module is used to record the surrounding video, and the image recognition unit is used to supplement the terrain not captured in the two videos, and the video in the correction module is displayed through the display module. The correction module is used to transmit the data of movable objects in the image recognition unit to the model drawing unit, and when movable objects are monitored in the monitoring module, an early warning is issued through the early warning module.
实施例二、请参阅附图1,本发明提供一种技术方案:该基于视频拼接处理用监控管理系统,包括监控模块、处理模块、地图模块、修正模块、显示模块以及预警模块;Embodiment 2, please refer to FIG1 , the present invention provides a technical solution: the monitoring and management system based on video splicing processing includes a monitoring module, a processing module, a map module, a correction module, a display module and an early warning module;
所述监控模块包括记录单元以及储存单元,所述记录单元主要用于多个监控器所录制的视频进行分别传输至储存单元以及监控模块中,并通过储存单元对监控数据进行储存;The monitoring module includes a recording unit and a storage unit. The recording unit is mainly used to transmit the videos recorded by multiple monitors to the storage unit and the monitoring module respectively, and store the monitoring data through the storage unit;
所述地图模块包括图片识别单元以及模型绘制单元,所述图片识别单元主要用于将图片中的内容进行识别,并将数据传输至建模绘制单元,通过建模绘制单元对储存单元中信息进行调取并进行建模绘制,并将建模重合部分进行拼接,并对图片中移动信息做记录,在视频中移动的物品移动至图片识别单元中的数据中,通过模型绘制单元对在图片识别单元中的数据进行模拟,并当移动信息出现在拼接位置的信息后进行显示位置,将数据传输至处理模块中;The map module includes a picture recognition unit and a model drawing unit. The picture recognition unit is mainly used to recognize the content in the picture and transmit the data to the model drawing unit. The model drawing unit retrieves the information in the storage unit and performs model drawing, splices the overlapping parts of the modeling, and records the movement information in the picture. The moving objects in the video are moved to the data in the picture recognition unit. The model drawing unit simulates the data in the picture recognition unit, and displays the position after the movement information appears in the information of the splicing position, and transmits the data to the processing module.
所述处理模块包括分析单元以及拼接单元,所述分析单元主要用于将多个视频进行分析,并将视频中有周围相近的图片进行分类,将数据传输至拼接单元以及地图模块中,所述拼接单元将视频中的图片进行对接,并通过拉伸以及挤压将视频中内容对接,并将数据传输至修正模块以及储存单元;The processing module includes an analysis unit and a splicing unit. The analysis unit is mainly used to analyze multiple videos, classify the pictures with similar surroundings in the videos, and transmit the data to the splicing unit and the map module. The splicing unit docks the pictures in the videos, docks the contents in the videos by stretching and squeezing, and transmits the data to the correction module and the storage unit.
所述修正模块包括测算单元以及补正单元,所述测算单元主要用于将监控模块中所拍摄视频之间出现的未重合位置进行计算,并通过物体从一个视频中的移动速度到另一个视频中所出现的时间进行计算,并通过补正单元将数据地图模块中的信息进行修正,并将数据传输至显示模块中;The correction module includes a measuring unit and a correction unit. The measuring unit is mainly used to calculate the non-overlapping positions between the videos shot in the monitoring module, and calculate the time from the moving speed of the object in one video to the time when it appears in another video, and correct the information in the data map module through the correction unit, and transmit the data to the display module;
所述显示模块主要用于将修正模块的图像数据进行显示;The display module is mainly used to display the image data of the correction module;
所述预警模块主要用于对显示模块中的内容进行监控,并通过视频中异常信息在储存单元中进行标记。The early warning module is mainly used to monitor the content in the display module and mark the abnormal information in the video in the storage unit.
请参阅附图1,所述测试单元对两个监控模块中所拍摄位置之间出现的距离进行计算,并对视频中移动速度进行计算,所述补正单元通过将测试单元中的数据传输至模型绘制单元,并模拟视频中物体移动速度在地图模块中的移动速度以及方向,并通过补正单元将数据转换为视频,并将数据传输至显示模块;Please refer to FIG. 1 , the test unit calculates the distance between the positions captured in the two monitoring modules and calculates the moving speed in the video, the correction unit transmits the data in the test unit to the model drawing unit, simulates the moving speed and direction of the object in the video in the map module, converts the data into a video through the correction unit, and transmits the data to the display module;
本实施例中,通过公式且W表示未被拍摄在模型绘制单元中后半段距离的物体移动信息,T表示拍摄物体的移动距离,S表示拍摄物体的移动时间。In this embodiment, the formula W represents the movement information of the object that is not captured in the second half of the distance in the model drawing unit, T represents the movement distance of the captured object, and S represents the movement time of the captured object.
在使用时,通过图片识别单元以及模型绘制单元将监控模块未拍摄到的位置进行拍摄,并对物体移动在未拍摄路段的二分之一处依旧处于始发状态,并在模型绘制单元的路线中模拟物品移动,并根据初始速度在前半段进行正面模拟移速,并在后半段依照正常判断进行显示,并在视频拍摄到显示之间延迟在3秒左右。When in use, the image recognition unit and the model drawing unit are used to capture positions not captured by the monitoring module, and the movement of the object is still in the starting state at half of the uncaptured section, and the movement of the object is simulated in the route of the model drawing unit, and the positive simulation speed is performed in the first half according to the initial speed, and it is displayed according to normal judgment in the second half, and the delay between video capture and display is about 3 seconds.
实施例三、请参阅附图1,本发明提供一种技术方案:该基于视频拼接处理用监控管理系统,包括监控模块、处理模块、地图模块、修正模块、显示模块以及预警模块;Embodiment 3, please refer to FIG1 , the present invention provides a technical solution: the monitoring and management system based on video splicing processing includes a monitoring module, a processing module, a map module, a correction module, a display module and an early warning module;
所述监控模块包括记录单元以及储存单元,所述记录单元主要用于多个监控器所录制的视频进行分别传输至储存单元以及监控模块中,并通过储存单元对监控数据进行储存;The monitoring module includes a recording unit and a storage unit. The recording unit is mainly used to transmit the videos recorded by multiple monitors to the storage unit and the monitoring module respectively, and store the monitoring data through the storage unit;
所述地图模块包括图片识别单元以及模型绘制单元,所述图片识别单元主要用于将图片中的内容进行识别,并将数据传输至建模绘制单元,通过建模绘制单元对储存单元中信息进行调取并进行建模绘制,并将建模重合部分进行拼接,并对图片中移动信息做记录,在视频中移动的物品移动至图片识别单元中的数据中,通过模型绘制单元对在图片识别单元中的数据进行模拟,并当移动信息出现在拼接位置的信息后进行显示位置,将数据传输至处理模块中;The map module includes a picture recognition unit and a model drawing unit. The picture recognition unit is mainly used to recognize the content in the picture and transmit the data to the model drawing unit. The model drawing unit retrieves the information in the storage unit and performs model drawing, splices the overlapping parts of the modeling, and records the movement information in the picture. The moving objects in the video are moved to the data in the picture recognition unit. The model drawing unit simulates the data in the picture recognition unit, and displays the position when the movement information appears after the information of the splicing position, and transmits the data to the processing module;
所述处理模块包括分析单元以及拼接单元,所述分析单元主要用于将多个视频进行分析,并将视频中有周围相近的图片进行分类,将数据传输至拼接单元以及地图模块中,所述拼接单元将视频中的图片进行对接,并通过拉伸以及挤压将视频中内容对接,并将数据传输至修正模块以及储存单元;The processing module includes an analysis unit and a splicing unit. The analysis unit is mainly used to analyze multiple videos, classify the pictures with similar surroundings in the videos, and transmit the data to the splicing unit and the map module. The splicing unit docks the pictures in the videos, docks the contents in the videos by stretching and squeezing, and transmits the data to the correction module and the storage unit.
所述修正模块包括测算单元以及补正单元,所述测算单元主要用于将监控模块中所拍摄视频之间出现的未重合位置进行计算,并通过物体从一个视频中的移动速度到另一个视频中所出现的时间进行计算,并通过补正单元将数据地图模块中的信息进行修正,并将数据传输至显示模块中;The correction module includes a measuring unit and a correction unit. The measuring unit is mainly used to calculate the non-overlapping positions between the videos shot in the monitoring module, and calculate the time from the moving speed of the object in one video to the time when it appears in another video, and correct the information in the data map module through the correction unit, and transmit the data to the display module;
所述显示模块主要用于将修正模块的图像数据进行显示;The display module is mainly used to display the image data of the correction module;
所述预警模块主要用于对显示模块中的内容进行监控,并通过视频中异常信息在储存单元中进行标记。The early warning module is mainly used to monitor the content in the display module and mark the abnormal information in the video in the storage unit.
请参阅附图1,所述预警模块通过对异常信息进行警报和储存,并且对监控数据进行分析,生产相应的分析与报告;Please refer to FIG. 1 , the early warning module generates corresponding analysis and reports by alerting and storing abnormal information and analyzing monitoring data;
本实施例中,通过预警模块对图像视频进行预警,并通过对图片识别单元与图像视频进行分析。In this embodiment, an early warning module is used to warn the image video, and the image recognition unit and the image video are analyzed.
在使用时,通过对图片识别单元中的可移动物品的图像信息进行标记,当监控模块正难过识别到移动数据,然后预警模块进行预警,同时通过移动速度物体在未被拍摄的位置滞留时间过长时,通过预警模块对物品以及人员进行拍摄,并且对人员进行分析与相应报告。When in use, the image information of movable objects in the image recognition unit is marked. When the monitoring module is unable to recognize the movement data, the early warning module will issue an early warning. At the same time, when the moving speed of the object stays in an unphotographed position for too long, the early warning module will photograph the objects and personnel, analyze the personnel and issue corresponding reports.
工作原理:working principle:
第一步骤、首先,通过安装监控模块对周围信息进行拍摄,并对周围未拍摄的位置通过人员手动进行拍摄,并将拍摄图片传输至图片识别单元中,利用图片识别单元与监控模块地形信息输入至建模模块中;The first step is to install a monitoring module to take photos of surrounding information, and manually take photos of surrounding locations that have not been photographed, and transmit the photos to the image recognition unit, and use the image recognition unit and the monitoring module to input the terrain information into the modeling module;
第二步骤、其次,通过建模模块对视频中的数据进行模拟,并对监控模块中未拍摄位置情况,通过建模模块以及可移动信息进行补充;The second step is to simulate the data in the video through the modeling module, and supplement the positions not captured in the monitoring module through the modeling module and movable information;
第三步骤、最后,利用预警模块将视频图像中异常信息进行警报。The third step, finally, uses the early warning module to send out an alarm for abnormal information in the video image.
本领域技术人员应该明白,上述本发明的各模块或各步骤可以用通用的计算机装置来实现,可选地,它们可以用计算装置可执行的程序代码来实现,从而,可以将它们存储在存储装置中由计算装置来执行,或者将它们分别制作成各个集成电路模块,或者将它们中的多个模块或步骤制作成单个集成电路模块来实现。本发明不限制于任何特定的硬件和软件的结合。Those skilled in the art should understand that the modules or steps of the present invention described above can be implemented by a general-purpose computer device, or alternatively, they can be implemented by a program code executable by a computing device, so that they can be stored in a storage device and executed by the computing device, or they can be made into individual integrated circuit modules, or multiple modules or steps therein can be made into a single integrated circuit module for implementation. The present invention is not limited to any specific combination of hardware and software.
以上所述仅为本发明的优选实施例而已,并不用于限制本发明,对于本领域的技术人员来说,本发明可以有各种更改和变化,凡在本发明的精神和原则之内,所作的任何修改、等同替换、改进等,均应包含在本发明的保护范围之内。The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention. For those skilled in the art, the present invention may have various changes and variations. Any modifications, equivalent substitutions, improvements, etc. made within the spirit and principles of the present invention should be included in the protection scope of the present invention.
上述虽然结合附图对本发明的具体实施方式进行了描述,但并非对本发明保护范围的限制,所属领域技术人员应该明白,在本发明的技术方案的基础上,本领域技术人员不需要付出创造性劳动即可做出的各种修改或变形仍在本发明的保护范围以内。Although the above describes the specific implementation mode of the present invention in conjunction with the accompanying drawings, it is not intended to limit the scope of protection of the present invention. Technical personnel in the relevant field should understand that various modifications or variations that can be made by technical personnel in the field without creative work on the basis of the technical solution of the present invention are still within the scope of protection of the present invention.
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