TW201811022A - Surveillance camera system, and video browsing method and video combining method for surveillance camera system - Google Patents

Abstract

An image recording server of the present invention includes: (1) an image data selection means which selects a plurality of individual image data sets from a folder; (2) a to-be-combined image data creation means which creates to-be-combined image data sets by performing coupling and/or partial deletion of the selected individual image data sets on the basis of whether or not two or more of the sets need to be coupled together and/or whether or not some of the sets need to be deleted; (3) a combined image data creation means which adjusts the to-be-combined image data sets such that those to be simultaneously displayed have an equal number of frames and the respective frame intervals thereof are made the same, and that those to be sequentially displayed are arranged in a display order, and which composites, as combined image data, one video using all the adjusted to-be-combined image data sets; and (4) a transmission means which transmits the combined image data to a terminal so as to cause the terminal to display the combined image data.

Description

Surveillance camera system and moving image reading method and moving image combining method in surveillance camera system

[0001] The present invention relates to a surveillance camera system and a moving image viewing method and a moving image combining method in a surveillance camera system.

[0002] In the past, for the purpose of theft prevention, investigation, or management, surveillance cameras were used to timely monitor the points to be monitored at the entrances and exits, store entrances, streets, factories, and distribution centers of buildings such as houses. Camera system that sends the monitoring result to the monitor of the user terminal through the Internet and other telecommunication return lines (for example, refer to JP 2013-51534, JP 2002-77882, JP 2006-190294).

[0003] A surveillance camera system of the present disclosure includes: a video recording server connected to one or a plurality of cameras and one or a plurality of terminals through a network; the video recording server has: a camera image to be photographed by the video camera Create a dynamic image form that separates the predetermined recording time and saves it as a data storage mechanism for individual image data in the folder; From the aforementioned folder, select a plurality of image data selection agencies for the aforementioned individual image data; For the selected individual image data According to the necessity of plural links and / or the deletion of a part, the linking and / or part of the deletion is performed, and they are respectively used as a combination image data creation mechanism for the combination image data; Among the aforementioned combination image data, at the same time Display the combined image data for each other, adjust the number of frames to the same number, and then adjust the frame interval to be the same. The sequentially displayed combination image data is arranged in the display order, and the adjusted combined image data is all synthesized. For a moving image as a combined image resource The combined image data creating means; and the combined image data sent to the terminal and displaying the feeding mechanism.

[Embodiment] [0005] In the previous surveillance camera system, although multiple cameras can be viewed at the same time during live video playback, only one dynamic image can be played at a time in the video that becomes a file, which will have poor visibility. The problem. [0006] When problems are discovered in the future, for example, at the manufacturing site, if you want to confirm the batch in question, you need to confirm all the images of the various places on the date of manufacturing the batch one by one. It takes a lot of time so far. [0007] [Embodiment] [1] The first object of the embodiment described below is to provide a surveillance camera system and surveillance that can solve the above-mentioned problems, can efficiently view moving images, and can improve the visibility when checking later. Moving image reading method and moving image combining method in camera system. [0008] The inventors do not view the surveillance camera images of a moving image separately in time units, but use the saved moving images with completely different entry points and use The idea of generating a moving image of a new use from the stored moving image completes the following embodiments. [0009] A first aspect of a surveillance camera system according to an embodiment includes a recording server connected to one or a plurality of cameras and one or a plurality of terminals via a network; The recording server has: The camera image of the camera is made into a dynamic image form that is separated from the predetermined recording time and is stored in the folder as the individual image data; From the aforementioned folder, select a plurality of aforementioned image data selection agencies; For the selected The individual image data of the link are linked and / or partially deleted according to the necessity of plural links and / or the deletion of a part, and they are respectively used as a combination image data creation mechanism for the combination image data; Among them, the combined image data displayed at the same time is adjusted to the same number of frames, and then the frame interval is adjusted to be the same. The sequentially displayed combination image data is arranged in the display order, and the adjusted combination data is adjusted. All image data are combined into a dynamic image as a combination Binding data as image data creating means; and the combined image data sent to the terminal and displaying the feeding mechanism. [0010] According to the first aspect of the embodiment, the combination of recorded images enables efficient viewing of moving images, and can improve the readability when checking later. In addition, in the manufacturing process of the same batch, etc., it is possible to simultaneously view moving images at different times of a plurality of cameras. In addition, since it is only necessary to view the combined moving image according to the purpose, when a problem occurs, it is possible to reduce the labor that takes a long time to view many moving images to find out the cause of the problem. By performing multiple simultaneous readings, the workload of reading is reduced, and business is improved. In addition, because more saved moving images can be seen at the same time than ever before, it is expected that the resilience of crime and the like can be improved. It can reduce the amount of data while maintaining high resolution, and achieve cost reduction. In addition, if only the combined video corresponding to the purpose is saved, the original individual moving image can be deleted, and capacity reduction and cost reduction can be achieved. Moreover, even a plurality of moving images having different shooting intervals and shooting times can be viewed at the same time at the same time. [0011] In the embodiment, the "network" includes a communication network such as a LAN or the Internet, a Wi-Fi loop, a 3G / LTE loop, and a dedicated line, and a network formed by a combination thereof. In the embodiment, the camera may be any one or both of a camera that captures still images and a camera that captures moving images, and an image captured by the camera may be any one of still images and movies, or Both. Each camera has an output function, a still image camera function, and / or a moving image camera function. The camera is preferably an IP camera, but it can be an analog camera. Regarding the image obtained from the camera for shooting still images, the form of compression into a moving image is preferably high compression H at the present point. 264 is better. Because it is lightweight, even hardware and software can be easily installed. In addition, it is preferable that a video camera that shoots moving images is connected by a video server and a LAN network, but it is not limited thereto. In addition, the recording server in the embodiment may be a person who connects and collects images of the camera through a camera and a network, and the recording server in the embodiment may not connect to the camera through the camera and the network, but may borrow the image of the camera. It is collected by another server connected by a camera and a network, and is sent from the collected server to a recording server in the embodiment. The moving image is used as image data to be stored in the recording server in the embodiment. In addition, the recording server may be a cloud server. [0012] A second aspect of the surveillance camera system of the embodiment is the first aspect of the surveillance camera system, wherein the aforementioned data storage mechanism creates a dynamic image of the camera images photographed by the plurality of cameras with a long interval of predetermined recording time. The image format is stored in the folder as individual image data, and at the same time, the time difference data of each camera relative to the reference camera and the long recording time data of each camera are stored in the database; The shooting time played by one camera among the target cameras is calculated for each camera based on the time difference data. The shooting time played by the other cameras among the target cameras is calculated based on the time difference data. The playback time unit is calculated for each camera based on the ratio of the long recording time of the other cameras based on the ratio of the long recording time of the data. From the foregoing folder, the combined individual image data is selected for all cameras that are the target of playback. The foregoing The combined image data creation mechanism, for the selected individual image data, is linked and / or partially deleted according to the need for multiple links and / or part of the deletion, and is processed from each playback shooting moment into each playback time unit. As the combined image data; The aforementioned combined image data creation mechanism, among the aforementioned combined image data, enables the combined displayed image data to be displayed simultaneously with each other and their respective playback time unit units. The image data is played at the same time. Calculate the playback speed for each combination of image data, adjust the number of frames to the same number, and then adjust the frame interval to be the same. The sequentially displayed combination image data is displayed in the order shown. Arrange so that all the combined image data displayed simultaneously are divided into one screen for display, and the adjusted combined image data are all combined into one moving image as the combined image data. [0013] A third aspect of the surveillance camera system according to the embodiment is the first aspect of the surveillance camera system, wherein: 资料 the image data selecting mechanism selects a photographing time to be played; The aforementioned individual image data at the same time at the time of shooting is selected for all cameras that are the object of playback; the aforementioned combined image data creation mechanism, which uses the selected individual image data as the combined image data, respectively; the aforementioned combined image data creation mechanism, In such a manner that all the video data for combination are divided into one screen for display, all the video data for combination are combined into one moving image as the combined video data. [0014] A surveillance camera system according to a fourth aspect of the embodiment is the surveillance camera system according to the first aspect, wherein the image data selecting mechanism selects from the aforementioned folder the shooting time from the start of playback to the end of playback All the individual image data of the image up to the shooting time; The aforementioned combined image data creation mechanism links the selected individual image data in accordance with the time sequence to link the image before the shooting time at the beginning of playback and the shooting at the end of playback The image after the time is deleted as the combined image data; The aforementioned combined image data creation mechanism links and synthesizes one or more of the aforementioned combined image data into one dynamic image as combined image data. [0015] A fifth aspect of the embodiment is a method for viewing a dynamic image, which includes a video recording server connected to one or more cameras and one or more terminals through a network, and the video cameras captured by the aforementioned cameras The image is made into a dynamic image form that is separated from a predetermined recording time and stored as a single image data in a folder; The foregoing recording server selects a plurality of image data selection steps of the foregoing individual image data from the foregoing folder; the foregoing The recording server, according to the selected individual image data, performs linking and / or partial deletion according to the necessity of plural links and / or the deletion of part of them, and uses them as the combination image data for the combination image data to create steps. ; The aforementioned recording server, among the aforementioned combined image data, simultaneously displays the combined image data of each other, and adjusts the number of frames to the same number, and then adjusts the frame interval to be the same, and sequentially displays the combined images. The data are arranged in the display order, and all the combined image data for adjustment will be used. It is a moving image, a combined image data creation step of the image data binding; the video server, in conjunction with the aforementioned image data sent to the terminal and displaying the feeding step. [0016] According to the fifth aspect of the embodiment, it is possible to efficiently view moving images, and it is possible to improve the visibility when checking later. In addition, in the manufacturing process of the same batch, etc., it is possible to simultaneously view moving images at different times of a plurality of cameras. In addition, since it is only necessary to view the combined moving image according to the purpose, when a problem occurs, it is possible to reduce the labor that takes a long time to view many moving images to find out the cause of the problem. By performing multiple simultaneous readings, the workload of reading is reduced, and business is improved. In addition, because more saved moving images can be seen at the same time than ever before, it is expected that the resilience of crime and the like can be improved. It can reduce the amount of data while maintaining high resolution, and achieve cost reduction. In addition, if only the combined video corresponding to the purpose is saved, the original individual moving image can be deleted, and capacity reduction and cost reduction can be achieved. Moreover, even a plurality of moving images having different shooting intervals and shooting times can be viewed at the same time at the same time. [0017] A sixth aspect of the moving image combining method according to the embodiment includes a recording server, which uses a camera image taken by a plurality of cameras to create a moving image format that is separated from a predetermined recording time and is stored as individual image data in Data folder, and simultaneously save time difference data of each camera relative to the reference camera and long video recording time data of each camera in the data storage step of the database; The aforementioned video recording server The shooting time broadcasted by one camera is calculated for each camera based on the time difference data, and the shooting time broadcasted by other cameras among the cameras to be played is calculated from the playback time unit of the one camera. The playback time units of other cameras are calculated separately for each camera based on the ratio of the long-time recording data, and from the aforementioned folder, the combined individual image data is selected as the image data selection step for all cameras that are the object of playback; The aforementioned recording server According to the selected individual image data, the link and / or part of the deletion is performed in accordance with the necessity of plural links and / or the deletion of a part, and the image data of each playback time unit is processed from each playback shooting moment and divided The combination image data creation step as the combination image data; ； The video recording server, among the combination image data, makes the combination image data displayed at the same time as each other, and its respective playback time unit of combination image data Calculate the playback speed for each combination of video data in the same time, adjust the number of frames to the same number, and then adjust the frame interval to be the same. The combined image data for sequential display is arranged in the display order. In a manner that all the combined image data displayed at the same time are divided into one screen for display, all the adjusted combined image data are combined into one dynamic image, which is a step of creating combined image data combining the image data. [0018] According to the sixth aspect of the embodiment, the combination of the recorded images enables efficient viewing of moving images, and can improve the readability when checking later. In addition, according to the same method, in the manufacturing process of the same batch, etc., it is possible to create a moving image capable of simultaneously viewing moving images of different cameras at different times. In addition, because a dynamic image can be combined according to the purpose, when a problem occurs, it is possible to reduce the labor that takes a long time to read many dynamic images to find out the cause of the problem. As a moving image that can be viewed simultaneously by a plurality of cameras, the workload of viewing is reduced, and business is improved. In addition, because more saved moving images can be seen at the same time than ever before, it is expected that the resilience of crime and the like can be improved. It can reduce the amount of data while maintaining high resolution, and achieve cost reduction. In addition, if only the combined video corresponding to the purpose is saved, the original individual moving image can be deleted, and capacity reduction and cost reduction can be achieved. Moreover, even a plurality of moving images having different shooting intervals and shooting times can be viewed at the same time at the same time. [0019] A seventh aspect of the moving image combining method according to the embodiment includes a video recording server that forms a video image of a plurality of cameras captured by a plurality of cameras into a form of a moving image separated by a predetermined recording time, and stores the video image as individual image data in Steps for saving data in the folder; The aforementioned recording server selects the shooting moment for playback, and from the aforementioned folder, the aforementioned individual image data at the same time as the selected shooting moment is selected for all the cameras that are the target of playback. Steps for selecting data; 录像 The aforementioned recording server, which uses the selected individual image data as the combined image data for the combined image data creation step; The aforementioned recording server, so that the aforementioned combined image data are all divided into one screen for display. Method, synthesizing all of the aforementioned combined image data into one moving image as a combined image data creation step of combined image data. [0020] According to the seventh aspect of the embodiment, the combination of the recorded images can efficiently view the moving images, and can improve the readability when checking later. In addition, according to the same method, it is possible to create a moving image capable of simultaneously viewing moving images at different times of a plurality of cameras. In addition, because a dynamic image can be combined according to the purpose, when a problem occurs, it is possible to reduce the labor that takes a long time to read many dynamic images to find out the cause of the problem. By performing multiple simultaneous readings, the workload of reading is reduced, and business is improved. In addition, because more saved moving images can be seen at the same time than ever before, it is expected that the resilience of crime and the like can be improved. It can reduce the amount of data while maintaining high resolution, and achieve cost reduction. In addition, if only the combined video corresponding to the purpose is saved, the original individual moving image can be deleted, and capacity reduction and cost reduction can be achieved. [0021] An eighth aspect of the moving image combining method according to the embodiment includes a video recording server that forms a moving image format in which a camera image taken by a camera is separated for a predetermined recording time, and stores the data in the data as individual image data. Steps for saving data in the folder; The aforementioned video server selects, from the aforementioned folder, an image data selection step for creating all the individual image data combined with the moving image from the shooting time at the start of playback to the shooting time at the end of playback; The aforementioned recording server links the selected individual image data according to the time sequence, and deletes the image before the shooting time at the start of playback and the image after the shooting time at the end of playback, as a combination of the combined video data. Steps for creating image data; 录像 The aforementioned recording server links and synthesizes one or more of the aforementioned combination image data into one dynamic image as a combined image data creation step combining the image data. [0022] According to the eighth aspect of the embodiment, it is possible to efficiently view moving images, and it is possible to improve the visibility when checking later. In addition, it is possible to efficiently view a moving image for a desired time period. In addition, since it is only necessary to view the combined moving image according to the purpose, when a problem occurs, it is possible to reduce the labor that takes a long time to view many moving images to find out the cause of the problem. By performing multiple simultaneous readings, the workload of reading is reduced, and business is improved. In addition, because more saved moving images can be seen at the same time than ever before, it is expected that the resilience of crime and the like can be improved. It can reduce the amount of data while maintaining high resolution, and achieve cost reduction. In addition, if only the combined video corresponding to the purpose is saved, the original individual moving image can be deleted, and capacity reduction and cost reduction can be achieved. [0023] Hereinafter, the embodiments will be specifically described with reference to the examples, but the embodiments are not limited thereto. [First Embodiment] The first embodiment is to process and save the images captured and stored by the surveillance camera into an easy-to-view format, and save the images even in the time zone of each camera. The composition is displayed as one screen. In detail, the video recording server operates a surveillance camera through a network. The video recording server uses the primary data created by capturing and collecting camera images of moving and still images to create a predetermined time for each video camera. The secondary image data completed by the unit as a dynamic image is individual image data. The recording server combines and processes the secondary image data and generates three image data to combine the image data. The recording server responds to the user's terminal from the terminal. The video data is sent three times via the network, that is, the video data that is synthesized and monitored with a single screen even if the video is in the individual time zone of each camera. In addition, not just playing, but also rewinding and fast-forwarding. Therefore, this embodiment can realize the effective use of the saved image. For example, in a certain operating room, when you want to check whether there is a time zone when foreign materials are mixed in when the materials are put in, you can immediately know that for the batch in question, you can also check whether the practitioners have abnormal behavior in the future. Learn right away. Therefore, according to this embodiment, the readability at the time of confirmation in the future is improved, and in today's problems that require long-term labor investigations, investigations can be conducted in a very short time with high efficiency and less labor investigations. [0025] ｛Configuration｝ FIG. 1 is a diagram showing an example of a network configuration of a surveillance camera system according to a first embodiment. A network 500 composed of a combination of communication networks such as a LAN or the Internet, a Wi-Fi loop, a 3G / LTE loop, and a dedicated line is connected to: (1) a plurality of surveillance cameras as cameras for photographing images (For still images) 400A to C and surveillance cameras (for moving images) 401 and (2) Connect to surveillance cameras 400 and 401 via the network 500, acquire image data captured by the camera, store it, and send it to the terminal The video recording server 100 serving as a video recording server, (3) is connected to the video recording server 100 through the network 500, and receives and displays video data from the video recording server 100 and displays mobile terminals 200A to C, such as smartphones, and desks Viewing PCs 300A to C such as a personal computer (PC) or a notebook PC. The camera may be only a still image camera for surveillance or a moving image camera for surveillance. The number of cameras is not limited as long as they are within the processing range of the recording server. In addition, when a mobile terminal and a PC are viewed in the following, it is referred to as a "terminal" or "viewer". [0026] Although the recording server 100 and the surveillance camera (moving image) 401 for capturing moving images exist in the same LAN, the recording server 100 is not limited to the surveillance camera (still image) 400 for capturing still images. In the same LAN, it may be connected via a plurality of networks such as the Internet or LAN. It is also possible to have a plurality of recording servers on the same network. In this embodiment, the communication between the surveillance cameras 400 and 401 and the recording server 100 is TCP / IP. In the surveillance camera (still image) 400 for still images, even in the same LAN There is no camera or recording server, and it is possible to reliably send and receive video data with high reliability. The surveillance cameras 400 and 401 are IP cameras in this embodiment, but may be analog cameras. The terminal 300 for video display, ie, the viewing PC 300, is not limited to the case where it exists in the same LAN as the recording server 100, and may be connected through a plurality of networks such as the Internet, a LAN, and a Wi-Fi loop. The same applies to the mobile terminal 200, which is a terminal for video display, and may be connected through a plurality of networks such as a LAN, the Internet, and a mobile phone network (such as a Wi-Fi loop or a 3G / LTE loop). A router 600 is interposed between the LAN and the Internet, and a surveillance camera for capturing still images and the Internet. FIG. 1 shows an example of connection between a surveillance camera (for moving images) and a surveillance camera (for still images) or a viewing PC or mobile terminal via a recording server and a plurality of networks, but is not limited thereto. In the present embodiment, the communication between the surveillance cameras 400 and 401 and the recording server 100 is performed using TCP with high reliability, and communication is started after establishing a segment, but data may be transmitted early without establishing a segment. The timeliness of UDP, TCP, and UDP can be used to obtain images. [0027] One recording server 100 can acquire images from a plurality of surveillance cameras 400 and 401. In this embodiment, because the video server 100 side automatically distributes network traffic, no network design is required, and only the camera needs to be connected to the port, and the operation is very simple. It is also easy to re-open when communication is not available. [0028] FIG. 2 is a configuration diagram of a recording server of the surveillance camera system of the first embodiment. The recording server 100 is provided with a control / calculation device such as a CPU 101 or a device driver accompanied by a cache memory, that is, a memory 102, a memory device 110 including a main memory device such as a DRAM, and an auxiliary memory device such as a hard disk, and a network. A communication control device such as the interface 104 and an input / output device composed of a display 103, a keyboard 105, a mouse 106, and the like as a display device. The memory device 110 includes various programs starting from the primary image folder 111, the secondary image folder 112, the tertiary image folder 116, and the moving image linking / combining program 113, the authentication database, and the environment setting folder. An operating system 114 is also stored. The combined image data used to create the third image data from the secondary image data, that is, the individual image data, that is, the combined image data, is also stored in a folder in the memory device 110. Various programs starting with the moving image linking / combining program 113 are usually stored in the auxiliary memory device of the memory device 110 and are loaded into the main memory device during execution. In the primary image folder 111, the camera image is accumulated as primary data, and in the secondary image folder 112, the primary data stored in the primary image folder 111 for a certain period of time is subjected to dynamic image compression conversion and used as Secondary image data to accumulate. The related secondary image data is individual image data using the camera image captured by the camera as a moving image. The authentication database stores IDs, passwords, and personal identification information (UID), which are reception information of the mobile terminal 200 and the viewing PC 300, and IP addresses, port numbers, IDs, and passwords, which are access information of the surveillance cameras 400 and 401. . In this embodiment, the video recording server 100 is integrated with the video recording server and the terminal. In order to exert the effect of the terminal that displays its own image, and for maintenance and management, it includes a display 103, a keyboard 105 as an input mechanism, and Mouse 106. When it is not necessary to play the camera image with a recording server, it is not necessary to have a terminal function as an image display device. In the environment setting folder, conditions such as the acquisition timing of the images of each surveillance camera, the creation interval of the primary and secondary image data, the compression conditions, the layout when the tertiary image data (combined with the image data) are created, the primary data, and Creation interval of secondary image data, compression conditions, etc. The recording server 100 may be a setup server or a cloud server. [0029] The recording server in this embodiment also has a database, which includes: time difference data of each camera relative to the reference camera, and data of long playback unit time (long recording time) of each camera. [0030] The recording server 100 allows the CPU 101 to load and execute the moving image linking / combining program 113 into the memory 102 and executes the computer function to enable the moving image combining editing processing of the first embodiment and the like. The CPU 101 is an arithmetic processing device mounted on a general computer, and executes various programs and performs various controls and the like. [0031] The recording server 100 may be a single server or a server group composed of a plurality of servers. For example, with regard to the secondary image folder, for a secondary image data after a certain period of time (for example, 24 hours), a storage destination is set as a secondary image set in a recording server different from a recording server that acquires a camera image Image folders are also available. Because it is different from the past saved data that is not played frequently, it can monitor more cameras on the same network. [0032] The video recording server 100 is connected to a surveillance camera, and the still surveillance camera for still image photography is connected to capture still images at regular intervals (for example, 1 second) and input the captured camera image to The recording server continuously captures moving images at regular intervals (for example, 10 seconds) with the monitoring camera for moving image photography. The camera image is input to the recording server, and the input camera image is compressed. The primary data is created and stored in the primary image folder 111 of the memory device 110. Next, the video recording server 100 combines the primary data at a certain time (for example, 10 minutes), and converts the data into a secondary video data compressed in the form of a moving image with a time stamp. In this embodiment, each secondary image data, that is, another image data, is data at the same time that separates a predetermined recording time, which is adjusted to the total number of the same frame. In this embodiment, although it is taken as the individual image data of 10 minutes, it is not limited to this. [0033] In this embodiment, the method of combining the images is a hybrid combination of combining and displaying the images on a single screen even if each camera is an image in an individual time zone. [0034] The dynamic image linking / combining program is a program that enables a computer to realize the following functions: (1) From the secondary image folder, select a plurality of individual image data of the same or different time bands that are combined and have the same recording time. Function of selecting image data, (2) for selected individual image data, linking and / or partially deleting according to the necessity of plural links and / or the deletion of a part, and separately forming a combination of combining image data The function of image data creation, (3) among the combined image data, the combined image data displayed at the same time, adjust the number of frames to the same number, and then adjust the frame interval to be the same, and sequentially display the combined use The image data is arranged in the order of display, and the adjusted combined image data is combined into one dynamic image, which functions as the combined image data combined with the image data, (4) the terminal connection function that performs the connection with the terminal, (5) A viewing request receiving function for receiving a moving image viewing request from a terminal, and (6) a sending function for sending the combined video data to the terminal and displaying it. The setting of which camera images are to be combined in which layout, and whether multiple links are to be deleted and / or partially deleted, are stored in advance in the database of the recording server 100 as a combination condition. [0035] In this embodiment, again, the image data selection function of the above (1) is: among the cameras that are to be played, the shooting time played by one camera from the cameras that are to be played is The shooting moments played by other cameras are calculated for each camera based on the time difference data. From the playback time unit of the relevant one camera, the playback time units of other cameras are based on the long playback unit time (long recording time) data. Compare each camera separately. From the folder, combine the individual image data to select the image data selection function for all the cameras that are to be played; the function of the combined image data creation function of (2) above is: for the selected The individual image data of the image is processed according to the need for multiple links and / or part of the deletion and / or part of the deletion, and is processed from the shooting time of each playback into the image data of each playback time unit and used as Combined image data creation function; combined image data creation function (3) above The function is: calculating the playback speed for each combination of video data at the same time by displaying the combination image data of the combination image data at the same time among the combination image data, Adjust the number of frames to the same number, and then adjust the intervals of the frames to be the same. The combined image data displayed in sequence is arranged in the display order, so that all the combined image data displayed at the same time are divided into one screen for display. All the adjusted combined image data are combined into one moving image and used as the combined image data of the combined image data to create a function. [0036] In addition, in this embodiment, the terminal accepts the rewinding request, fast forward request, and playback request for the combined video data displayed on the terminal, and performs the reverse, fast forward, and playback of the combined video data displayed according to the request. [0037] In this embodiment, the secondary image data is taken at a certain time (for example, 10 minutes). Because if there are secondary image data, three image data can be created, that is, combined with image data, the images of multiple cameras can be reduced to a near-real-time state to be able to be viewed on one screen and as a dynamic image from the recording server. The amount of data sent to the terminal is sufficient. [0038] In this embodiment, the connection between the surveillance camera and the recording server is performed by the TCP / IP method. In order to specify the surveillance camera, after the authentication is performed, the imaging of the camera image is required. The connection between the terminal and the recording server is also performed by the TCP / IP method. After confirming that the terminal is a terminal logged in to the recording server, the video is transmitted. The authentication is preferably performed by the authentication database on the recording server. [0039] Each time the connection is started, the video recording server 100 investigates the IP address, port number, and UID of the surveillance camera or terminal, and starts connection with the camera or terminal in the local environment (for example, on the same LAN). In this case, the connection target can be specified by the connection using the IP address and the port number or UID, and the user ID and password set on the recording server side are used for authentication. The video recording server 100 is connected to a surveillance camera in a remote environment through the Internet or the like, and uses a router's port forwarding (which can also be expressed as port forwarding, etc.), and uses a global IP address and port number to Specific connection object. Because the video recording server 100 uses the terminal-specific information of the UID as a basis to identify the terminal when the connection of the mobile terminal 200 or the viewing PC 300 is started, the user ID and password are authenticated and the terminal-specific information is consistent to display an image. [0040] FIG. 3 is a configuration diagram of a terminal (action) of the surveillance camera system according to the first embodiment. The mobile terminal 200 includes a control and calculation device such as a CPU 201 and a device driver with a memory 202, a memory device 210, a communication control device for transmitting and receiving data, a display 203 as a display device, operation buttons, a touch panel, and the like Input and output devices. An image display program 213 and an operating system 214 are stored in the memory device 210. The mobile terminal 200 is, for example, a mobile phone such as a smart phone. The CPU 201 loads the image display program 213 into the memory 202 and executes the image display program 213 to implement a computer function that enables image display in the first embodiment. The CPU 201 is an arithmetic processing device mounted on a general mobile terminal, and executes various programs and performs various controls and the like. [0041] In this embodiment, the recording server 100 and the viewing PC 300 are both configured as personal computers, and have all the clock functions of a normal personal computer. The mobile terminal 200 also has a clock function and the like. [0042] FIG. 4 is a configuration diagram of a terminal (PC) of a surveillance camera system according to the first embodiment. The viewing PC 300 includes a control / calculation device including a CPU 301 or a device driver accompanied by a memory 302, a memory device 310 including a main memory device such as a DRAM and an auxiliary memory device such as a hard disk, a communication control device such as a network interface 304, and An input / output device including a display 303, a keyboard 305, and a mouse 306, which are display devices. An image display program 313 and an operating system 314 are stored in the memory device 310. The viewing PC 300 is, for example, a desktop PC, a notebook PC, a tablet terminal, or the like. The CPU 301 loads and executes the image display program 313 into the memory 302 to implement a computer function that enables the image display of the first embodiment. The CPU 301 is an arithmetic processing device mounted on a general PC, and executes various programs and performs various controls and the like. [0043] The image display program is used to enable a computer to realize a terminal connection function for connecting with a recording server, and an image display function for displaying an image sent from the recording server. [0044] In this embodiment, as a better aspect of the image display program, in order for the computer to realize: accept the input of the request for rewind or fast forward, the video server requires three times of image data, that is, a certain combination of image data A function program is required to reverse and fast forward the image before or after the unit. [0045] In this embodiment, since the images of a plurality of cameras are combined as a moving image, the images of all the cameras in the display can be inverted and fast-forwarded at one time. [0046] A program having a method for viewing a moving image, including a moving image linking program and a video display program, is a program that causes a computer to execute each program. [0047] In this embodiment, the recording server 100 connected to the surveillance cameras 400 and 401 for photographing images via the network 500, and the terminals 200 and 300 connected to the recording server 100 via the network 500 to display images ; The recording server 100 is provided with a connection with a surveillance camera, and the connected surveillance camera for still image photography captures still images at regular intervals (for example, 1 second), and captures the captured camera image Input to the recording server, and continuously monitor moving images at regular intervals (for example, 10 seconds) with the connected surveillance camera for moving image photography. Input the camera image to the recording server and input the input camera image. A mechanism for compressing and creating primary data and storing the primary data in the primary image folder 111 of the memory device 110. Next, the video recording server 100 is provided with a mechanism that combines primary data at regular time intervals (for example, 10 minutes), attaches a time stamp, and converts it into secondary image data compressed in the form of a moving image. Furthermore, the recording server 100 is provided with: (1) an image data selection mechanism for selecting, from a secondary image folder, a plurality of individual image data of the same or different time bands with the same recording time, and (2) The selected individual image data is linked and / or partially deleted according to the necessity of plural links and / or the deletion of part of them, and a combination image data creation mechanism for combination image data is created, (3) Among the image data, the combined image data displayed at the same time is adjusted to the same number of frames, and then the frame interval is adjusted to be the same. The combined image data displayed in sequence is arranged in the display order. All the combined video data are combined into one moving image, and it is used as a combined video data creation mechanism that combines the video data, (4) a terminal connection mechanism that connects with the terminal, and (5) accepts a dynamic image reading from the terminal. The requested viewing request accepting organization, (6) the sending organization that sends the aforementioned combined video data to the terminal and displays it. [0048] In this embodiment, the image data selection mechanism in (1) above is: from the shooting time played by one camera among the cameras to be played, the other cameras among the cameras to be played The playback time is calculated for each camera based on the time difference data. From the playback time unit of the relevant one camera, the playback time unit of other cameras is based on the ratio of the data in the playback unit time (long recording time) to each. Each camera calculates separately from the folder, the image data selection mechanism that selects the combined individual image data for all the cameras that are to be played; the combination image data creation mechanism of (2) above is for the selected individual image The data is linked and / or deleted in accordance with the necessity of plural links and / or deletion of a part, and is processed from each playback shooting time into image data of each playback time unit, and is used as a combined image. The image data creation mechanism is used for the combination of data; the image data creation mechanism of (3) above is : Among the combined image data, the combined image data displayed at the same time, so that the combined image data of each playback time unit are played at the same time, calculate the playback speed for each combined image data, and The number of frames is adjusted to the same number, and then the frame interval is adjusted to be the same. The combined image data displayed in sequence is arranged in the display order, so that all the combined image data displayed at the same time is divided into one screen for display. All the combined image data are combined into one moving image and used as a combined image data creation mechanism for combined image data. [0049] In this embodiment, the recording server 100 functions as the mechanisms (1) to (6) by the aforementioned hardware configuration and moving image linking / combining program 113. [0050] In addition, the terminal (the mobile terminal 200 and the viewing PC 300) is provided with: (1) an image display mechanism for displaying an image transmitted from the recording server 100, and (2) a reverse request and a fast forward request and a playback mechanism. [0051] In this embodiment, the terminals 200 and 300 function as the mechanisms of (1) to (2) by the aforementioned hardware configuration and image display programs 213 and 313. For example, the terminals 200 and 300 select whether or not to play the video on which day and time when the video is played the next day, and call out a file that is converted into two pieces of data every 10 minutes for playback. Rewinding during playback is also possible. [0052] The surveillance camera system of this embodiment is connected to a video recording server of a camera group that shoots still images or moving images through a network. At regular intervals, the camera is connected to the camera group using the TCP / IP method. The images are obtained from still images or moving images, and compressed into a single piece of data, which is saved as a piece of data within a certain period of time. After a certain period of time, it is transformed into a high-compressed moving image file with timestamp information twice. Image data and save again. In this embodiment, the recording server starts with H. 264 format compression and transformation into dynamic image files. In addition, the recording server combines plural secondary image data, that is, individual image data, in the form of a request from the terminal, to form a combined dynamic image, that is, three image data, that is, a combined image that is displayed in parallel and simultaneously. Information and display on the terminal. [0053] The surveillance camera system of this embodiment can efficiently view moving images, and can improve the visibility when checking later. Moving images from multiple cameras can be played at the same time, and for example, the time from when a problem is discovered to when a problem is identified can be shortened. [0054] (Order) The sequence of the moving image combining method in the surveillance camera system of the first embodiment and the moving image viewing method using the moving image combining method of the first embodiment will be described next. [0055] The moving image viewing method in the moving image combining method of this embodiment is to connect to one or a plurality of terminals through a network, and use a camera image taken by one or a plurality of cameras as a moving image format. The recording server, which is stored in the folder as individual image data, includes: (1) from the secondary image folder, selecting a plurality of image data selections of individual image data of the same or different time bands with the same recording time that are plurally combined Step, (2) for the selected individual image data, link and / or delete partly according to the necessity of plural links and / or deletion of a part, and separately create the combined image data for the combination image data, (3) Among the combined image data, the combined image data displayed at the same time are adjusted to the same number of frames, and then the frame interval is adjusted to be the same, and the sequentially displayed combined image data is displayed in the order Permutation, synthesizing all adjusted combined image data into one moving image, as the combined image data creation step of combined image data, (4) Viewing terminal connection between the terminal connection step (5) from the terminal receives the moving image browsing request accepting step, (6) binding to the image data sent to the terminal and displayed out step. [0056] In the recording server, camera images sent intermittently or continuously from a plurality of surveillance cameras are stored as primary data in a primary image folder, and secondary image data created from the primary data is accumulated into secondary image data. folder. Secondary image data is individual image data in which a camera image is stored in a folder as a moving image. Because the response to the display request of the combined image data from the terminal is answered after the point at which the individual image data is created, the images of the multiple cameras can be confirmed at a relatively early stage, and the readability is high. [0057] In this embodiment, although the camera and the combination method are stored in the recording server in advance, the recording server may also accept the selection of the camera to be played from the terminal, and then accept the selection of the combination method of the video. Link and combine individual video data according to the accepted combination method and display it on the terminal. [0058] In this embodiment, the shooting times of other cameras are calculated based on the time difference data stored in the database of the recording server based on the shooting time of one camera, and the shooting times are different from the folders. The individual image data is taken out and combined into a single screen. This embodiment is, for example, a combination method which is useful when it is necessary to simultaneously confirm a manufacturing process of a manufacturing batch. [0059] FIG. 5 is a schematic diagram of a moving image combining process of the moving image combining method according to the first embodiment. The video recording server starts three image data sets in advance by the method set in the video recording server, that is, combining the video data. In this embodiment, each camera viewed by the recording server is based on a hybrid method of combining and displaying images in a single frame, and displaying them as one screen, as described above. Folder, select the secondary image data that is combined plurally, that is, individual image data, and take it out. Next, the video recording server judges whether the individual image data is linked, and if necessary, a plurality of individual image data are linked, and if necessary, a part of the individual image data is deleted to create the combined image data. Next, when the video recording server synthesizes the image data for complex combination into one picture, it determines whether the number of frames should be adjusted, and if necessary, adjusts the frame interval and the number of frames to the same number among the image data. Next, when the video server combines and combines the image data for complex combination into one picture, the image data for complex combination is synthesized in one division, and then the combined image data, that is, the third image data, is accumulated in the third image folder. [0060] The video recording server converts the camera images taken by a plurality of cameras into a dynamic image format separated by a predetermined recording time and saves them as individual image data in a folder, and stores time difference data of each camera relative to the reference camera Data with long playback unit time (long recording time) with each camera is stored in the database. The sequence of the video server from the above-mentioned secondary image data, that is, individual image data, to three image data, that is, a dynamic image combining method that combines image data, includes in more detail: (1) from the camera that is the object of playback The shooting moments played by one of the cameras are calculated for each camera based on the time difference data stored in the database among the cameras that will be the target of the broadcast. The playback time unit is calculated for each camera based on the ratio of the playback time unit (long recording time) data stored in the database to each camera. From the folder, the combined individual image data is targeted to become Steps for selecting image data for selection of all cameras of the playback object; (2) For the selected individual image data, link and / or delete a part of the data according to the necessity of plural links and / or deletion of a part from each The photographed time of playback is processed into image data of each playback time unit and used as the final result. Use image data to combine image data to create a step; (3) The combination image data displayed at the same time among the combination image data, so that each combination of playback time unit image data is played at the same time, Calculate the playback speed for each combination of image data, adjust the number of frames to the same number, and then adjust the frame interval to be the same. The sequentially displayed combination image data is arranged in the display order so that the combined images displayed at the same time. The data are all divided into one screen for display, and the adjusted combined image data is combined into one dynamic image as a step of creating combined image data combining the image data. [0061] FIG. 6 is an image diagram of a connection sequence of the moving image combining method according to the first embodiment. A method for linking plural individual image data, for example, by individual image data between 10 minutes from 9:20 and 10:30 When the individual image data between minutes and the individual image data from 10 minutes to 9:50 are used as the combined image data from 9:25 to 9:55, the above four individual images are first connected, and The trimming is performed by deleting the image after 5 minutes from 9:20 and the image after 5 minutes from 9:55. [0062] FIG. 7 is an image diagram of a frame number adjustment sequence of the moving image combining method according to the first embodiment. The method of adjusting the frame interval and the number of frames to the same number between the image data for the combination of plural image data is: the individual image data that becomes the basis, such as the primary data of the cameras of A, B, and C, and When the data of one frame is 1 frame per second, the data of camera B is 5 frames per second, and the data of C camera is 10 frames per second, it is insufficient to set all moving images with 5 frames per second. The part is complemented by the previous frame, and the more part lengthens the interval. [0063] FIG. 8 is an image diagram of a moving image combining method of hybrid combining among the moving image combining methods of the first embodiment. Regarding CAM01, CAM03, CAM04, CAM06, the time difference data of the reference camera CAM06 is the camera accumulated in the database: 10 minutes before CAM01, 20 minutes before CAM03, and 40 minutes before CAM04. The playback units of each camera The time (long recording time) data is 10 minutes. As a video of 10:00, the image of CAM06 from 10:00 and the image of CAM01 from 9:50 and the image of CAM03 from 9:40. When the image from the minute and the image from 9:20 of CAM04 are combined every 10 minutes, as shown in FIG. 8, the images of the 10 minutes in the time zone of the four cameras are combined into a single screen display. , Then every 10 minutes after each camera are also synthesized in the same way. After the time when the images of each target camera are completely completed, the individual image data is taken out and started to be combined. The time of completion of the image of the target camera starts from the time when the last individual image data combined with the target camera is created, and ends at the maximum when the next individual image is created. If the individual video data about 20 minutes for CAM03 and 10 minutes apart from CAM03 are taken as the target, that is, the long playback unit time (long recording time) data of CAM03 accumulated in the database is 20 minutes, When the playback unit time (long recording time) of other cameras is 10 minutes, the total frame number of each camera is specified to be the same as CAM03 or other than CAM03. When it matches with CAM03, it will be a video with 20 minutes, and other than CAM03 will be played at 1/2 times. If it matches other than CAM03, it will be a 10-minute video, and CAM03 will be played back at twice. [0064] FIG. 9 is an image diagram showing a setting state of a monitoring camera in a dough process in the moving image combining method of the first embodiment. In the installation example of the surveillance camera shown in FIG. 9, a surveillance camera is installed at a manufacturing site in a factory, and the surveillance camera photographs each process in which dough is measured and mixed and once fermented. [0065] FIG. 10 is an image diagram of a display screen of a method for viewing a moving image of a dough project in the method of combining moving images according to the first embodiment. The image of the camera of the photometry project is 30 frames in 1 minute and the playback time unit (for example, the photographing time for each batch of bread) is 30 minutes. The image of the camera of the photo mixing project is 15 frames in 1 minute And the playback time unit is 60 minutes, the image of the camera that photographs the fermentation process once is 1 frame in 1 minute, and the playback time unit is 720 minutes. Because the hybrid method is selected as the bonding method, the foreign matter is important when the material is input. The mix-in check is therefore a combination of 30 frames in 1 minute and 30 minutes of playback time. As a result, the hybrid process becomes a double-speed image, and a single fermentation process becomes a 24-time-speed image. However, the actual number of frames is less than 30 frames, which is complemented by equalizing the same frames. [0066] FIG. 11 is an image diagram showing a setting state of a monitoring camera in a forming and baking process in the moving image combining method according to the first embodiment. In the installation example of the surveillance camera shown in FIG. 11, a surveillance camera is installed at a manufacturing site in a factory, and the surveillance camera photographs each process of the dough removal process, the division process, the forming process, the final fermentation process, the baking process, and the packaging process. . [0067] FIG. 12 is an image diagram of a display screen of a moving image viewing method of a forming and baking process in the moving image combining method of the first embodiment. For each camera, the number of frames is the same, and for the playback time unit, the dough removal process is 10 minutes, the division process is 30 minutes, the forming process is 30 minutes, the final fermentation process is 60 minutes, the baking process is 15 minutes, and the packaging process At 15 minutes, it is important for the workers to work in the food factory. Therefore, the camera that combines the image data in the segmentation process and the forming process is set to combine the image data for 30 minutes. As a result, the image of the final fermentation process becomes a double-speed image, and the image of the sintering process and the packaging process becomes a 1 / 2-speed image. By extracting and combining camera images installed at various places from a specified time, it is possible to generate a moving image in a bread manufacturing unit and the like, and to view the manufacturing process of a product that has a problem in the future with one image. In addition, when combining images with different playback time units of moving images, adjust the number of frames to make them consistent with the shorter or longer. When combined with a short moving image, a moving image with a long unit of playback time combines frames with longer intervals. In addition, in order to be able to cope with products with different manufacturing processes, it can also be linked to triggered production plan information, etc. Therefore, it is combined with the moving image of the management information of the manufactured product by RFID. [0068] This embodiment is a hybrid combination. For example, it is a useful combination method when a manufacturing process of a certain batch is to be confirmed at the same time. It accepts the shooting moments played by one camera, and combines the shooting moments played by other cameras based on The time difference data stored in the database of the recording server is calculated, and the individual image data at different shooting times from the folder are taken out and combined into one screen. [0069] ｛Effects｝ According to this embodiment, it is possible to efficiently view a moving image, and it is possible to improve the readability when checking in the future. The moving images of multiple cameras can be played at the same time, for example, it can shorten the time from detection of a problem such as mismatch, foreign matter incorporation, and loss of load to identification of the problem. [0070] In more detail, according to this embodiment, instead of simply browsing in time units, a new entry point can be used to generate a new use moving image. For example, it is possible to improve the readability of batch (box) units at the manufacturing site, etc., for later confirmation. And can delete unnecessary video information. Furthermore, the original player developed by software can enlarge and display the target moving image from the combined three-time video data, and can also view it in detail. [0071] According to the dynamic image combining method combined at the same time, the dynamic image combination with the same time axis can greatly increase the number of views that can be viewed at one time, and improve the visibility when multiple cameras are installed. According to this embodiment of the dynamic image combining method of hybrid combination, by combining differently on the time axis, since the time axis is shifted at a certain interval and the dynamic image is combined, the traceability of industrial products and the like can be ensured. [0072] Until now, although the camera image at the time of the problem can only be viewed, according to the surveillance camera system of this embodiment, since it can be confirmed in a short time, daily inspection is also possible, and business improvement and problem actions can be performed early. Found to be effective. In addition, in the case where it is sufficient to combine only the image data, that is, the third image data, not only the primary data that becomes the base but also the secondary image data can be deleted, which can greatly reduce the storage amount. [0073] According to this embodiment, it is possible to reduce the labor that takes a long time to view many moving image files when a problem occurs. In addition, even if plural simultaneous viewing is added to the business, it can improve the business because it does not become a burden. In addition, because more moving images can be seen, the deterrent becomes stronger. In addition, the authenticity of customer complaints and the like at the time of delivery can also be confirmed. In addition, it should be possible to reduce customer complaints that have been falsely reported to the distribution company as a result of this. [0074] According to this embodiment, even if the number of frames is reduced for a part of the camera images, it is possible to complete the interesting three-dimensional image data as a whole. [Second Embodiment] Since the second embodiment processes and saves the images captured and stored by a surveillance camera into an easy-to-view form, and saves them, it synthesizes and displays the images of multiple cameras at the same time and displays them on a single screen. By. Other than the points described below, it is the same as the first embodiment. In detail, the video recording server operates a surveillance camera through a network. The video recording server uses the primary data created by capturing and collecting camera images of moving and still images to create a predetermined time for each video camera. The secondary image data completed by the unit as a dynamic image is individual image data. The recording server combines and processes the secondary image data and generates three image data to combine the image data. The recording server responds to the user's terminal from the terminal. The request is sent through the network to synthesize the image data of multiple cameras at the same time and monitor the image data with 1 screen. In addition, not just playing, but also rewinding and fast-forwarding. Therefore, this embodiment can realize the effective use of the saved image. For example, you can monitor the diet of most cows in the barn at the same time. Therefore, according to this embodiment, the readability at the time of confirmation in the future is improved, and in today's problems that require a long time labor investigation, it can be investigated in a very short time and with less labor investigation. [0076] The network configuration of the surveillance camera system of this embodiment is the same as that of the first embodiment described above. The basic structure of the video recording server 100 is the same as that of the first embodiment except for the following description. The configuration of the surveillance camera, mobile terminal, and viewing PC is also the same as that of the first embodiment. [0077] In this embodiment, the method of combining images is to combine the images of multiple cameras at the same time and display them on the same screen at the same time. [0078] The moving image linking / combining program 113 in this embodiment is a program that enables a computer to realize the following functions: (1) From the secondary image folder, select a plurality of individuals with the same recording time and the same time band that are plurally combined The image data selection function of the image data, (2) The selected individual image data is linked and / or partially deleted according to the necessity of a plurality of links and / or the deletion of a part, and the combination of the combined image data is made separately. Use image data to create functions. (3) Among the combined image data, the combined image data displayed at the same time will adjust the number of frames to the same number, and then adjust the interval of the frames to be the same. The image data is arranged in the display order, and all the adjusted combination image data is combined into a dynamic image, which functions as a combination image data combination function that combines the image data, (4) a terminal connection function that performs connection with the terminal, (5) A viewing request receiving function for receiving a moving image viewing request from a terminal, and (6) a sending function for sending the combined video data to the terminal and displaying it. The setting of which camera images are to be combined in which layout is stored in the database of the recording server 100 as a combination condition in advance. [0079] In this embodiment, again, the image data selection function of the above (1) is: selecting a shooting moment for playback, and from the foregoing folder, individual image data at the same time as the selected shooting moment are targeted for playback. The function of selecting image data for selection of all cameras of the subject; the function of creating the image data for combination (2) above is: the function of creating the selected individual image data as the image data for combination; ) The combined image data creation function is: in a manner that all the combined image data is divided into one screen for display, all the combined image data is synthesized into one dynamic image as the combined image data creation function. [0080] In this embodiment, the recording server 100 is provided with: (1) an image data selection mechanism for selecting, from a secondary image folder, a plurality of individual image data of the same time band with the same recording time, and (2) ) The selected individual image data is combined into a combination image data creation mechanism, and (3) the combination image data is divided into one screen for display, and all the combination image data is combined into one. A moving image is a combined image data creation mechanism that combines video data, (4) a terminal connection mechanism that connects to a terminal, (5) a viewing request acceptance mechanism that accepts a moving image viewing request from a terminal, (6) the aforementioned A sending mechanism that sends video data to the terminal and displays it. [0081] In this embodiment, the above-mentioned image data selection mechanism (3) is: selecting a shooting time for playback, and from the foregoing folder, the individual video data at the same time as the selected shooting time are targeted to the playback target The image data selection mechanism selected by all cameras; the combination image data creation mechanism of (4) above is: the selected individual image data is used as the combination image data creation mechanism of the combination image data; the combination of (5) above The image data creation mechanism is a combination image data creation mechanism that combines all the image data for combination into one dynamic image as a combined image data so that all the image data for combination is divided into one screen for display. [0082] In this embodiment, the recording server 100 functions as the mechanisms (1) to (6) by the aforementioned hardware configuration and moving image linking / combining program 113. [0083] (Order) The sequence of the moving image combining method in the moving image combining method of the second embodiment and the moving image browsing method using the moving image combining method of the second embodiment will be described next. [0084] The moving image browsing method in the moving image combining method of this embodiment is the same as the first embodiment except that the points described below are described below. [0085] The moving image viewing method in the moving image combining method of this embodiment is to connect to one or a plurality of terminals through a network, and use a camera image taken by one or a plurality of cameras as a moving image format. The recording server, which is stored in the folder as individual image data, includes: (1) image data selection steps for selecting individual image data of a plurality of combined same time bands with the same recording time from the secondary image folder, (2) ) The selected individual image data is separately created into a combination image data for the combination image data creation step, (3) for all the combination image data, the frame interval and the number of frames are adjusted to the same number among the image data, In the manner that all the adjusted combined image data is combined into a single screen display, the combined image data is combined into one moving image as a combined image data creation step, (4) a terminal connection step for performing connection with the terminal, (5) A viewing request acceptance procedure for receiving a moving image viewing request from a terminal, (6) a sending step for sending the aforementioned combined video data to the terminal and displaying it . [0086] The recording server combines and combines individual images in a time-linked manner. After receiving the viewing request from the terminal, playback starts. In addition, in this embodiment, at the same time, for example, it is a useful combination method such as when it is necessary to simultaneously confirm multiple images at the same time. For all the cameras displayed at the same time, the individual image data of the shooting moments at the same time are combined. Take it out and combine it into 1 picture. [0087] FIG. 13 is an image diagram of a moving image combining method combined at the same time in the moving image combining method of the second embodiment. Regarding the cameras of CAM01, CAM03, CAM04, and CAM06, when the images starting from 10:00 are combined every 10 minutes, as shown in the figure, the four cameras from 10 minutes starting at 10:00 The video is synthesized in a single-screen display, and then from 10:10, it is also synthesized in the same way. After the time when the images of each target camera are completely completed, the individual image data is taken out and started to be combined. The completion time of the image of the target camera is started after the time when the individual image data is created, and the maximum time is when the next individual image is created. If an image with a different number of frames is included, specify the number of frames to be consistent with that camera. In order to reduce the number of frames, the number of frames is larger than that of the reference frame. Although the number of frames is sent, the number of frames is smaller than that of the reference frame. The frame is filled with the previous frame when the number of frames is increased. There is no change in appearance. [0088] FIG. 14 is an image diagram showing a display screen of a moving image viewing method of a cowshed in the moving image combining method according to the second embodiment. Each camera has the same number of frames, and can simultaneously confirm the images of Niu Shi 01-06 from 10:20 minutes from 2:20. [0089] ｛Effects｝ According to this embodiment, it is possible to efficiently view a moving image, and it is possible to improve the readability at the time of confirmation in the future. This is because most cameras can be confirmed at one time. For example, in the image of a cowshed, it is possible to check whether there is abnormal movement or the state of eating and drinking. For example, because the time zone of eating and drinking has been decided, the viewing performance can be improved by combining the images of cameras at the same time zone. [0090] [Third Embodiment] This embodiment synthesizes images of a plurality of consecutive time zones of one camera, and continuously displays them on a continuous combination of one screen. Other than the points described below, it is the same as the first embodiment. In this embodiment, the step of selecting image data is: selecting, from the folder, all image data selection steps for creating a combination of individual image data for creating a moving image from the shooting time at the start of playback to the shooting time at the end of playback; The step of using image data is to link selected individual image data according to the time sequence, delete the image before the shooting time at the beginning of playback and the image after the shooting time at the end of playback as the combined image data. The step of creating combined image data; the step of creating combined image data is: a step of creating combined image data by combining one or a plurality of linked image data into one image. The moving image combination shown in FIG. 6 is performed as the combined image data. In the figure, although it is a moving image formed by one continuous image from 9:25 to 9:55, a person who synthesizes a plurality of images in a continuous plural time zone with a camera and continuously displays them on one screen can. For example, one moving image may be obtained by linking a continuous video from 9:25 to 9:55 and a continuous video from 10:25 to 10:55. [0091] In addition, the present invention is not limited to the above-mentioned embodiments, and various modifications may be made without departing from the scope of the present invention. In addition, the constituent elements of the above embodiments can be arbitrarily combined without departing from the scope of the present invention.

[0092]
500‧‧‧Internet
400A ～ C‧‧‧Still image camera
401‧‧‧streaming camera
100‧‧‧Video Server
200A ～ C‧‧‧Mobile terminal
300A ～ C‧‧‧viewing PC
102‧‧‧Memory
101‧‧‧CPU
104‧‧‧MIC
103‧‧‧Display
105‧‧‧ keyboard
106‧‧‧Mouse
110‧‧‧Memory device
114‧‧‧OS
112‧‧‧ secondary image folder
116‧‧‧Three image folders
113‧‧‧program
203‧‧‧Display
202‧‧‧Memory
201‧‧‧CPU
210‧‧‧Memory device
214‧‧‧OS
213‧‧‧program
303‧‧‧Display
302‧‧‧Memory
301‧‧‧CPU
310‧‧‧Memory device
314‧‧‧OS
313‧‧‧program
305‧‧‧Keyboard
306‧‧‧Mouse
304‧‧‧MIC

[0004] FIG. 1 is a diagram showing an example of a network configuration of a surveillance camera system according to a first embodiment. [FIG. 2] FIG. 2 is a configuration diagram of a recording server of the surveillance camera system of the first embodiment. [FIG. 3] FIG. 3 is a configuration diagram of a terminal (action) of the surveillance camera system of the first embodiment. [FIG. 4] FIG. 4 is a configuration diagram of a terminal (PC) of a surveillance camera system according to the first embodiment. [FIG. 5] FIG. 5 is a schematic diagram of a moving image combining process of the moving image combining method according to the first embodiment. [FIG. 6] FIG. 6 is an image diagram of a connection sequence of the moving image combining method according to the first embodiment. [FIG. 7] FIG. 7 is an image diagram of a frame number adjustment sequence of the moving image combining method according to the first embodiment. [FIG. 8] FIG. 8 is an image diagram of a hybrid image-combined dynamic image-combining method in the first embodiment. [FIG. 9] FIG. 9 is an image diagram showing the installation status of the surveillance camera in the dough process in the moving image combining method of the first embodiment. [FIG. 10] FIG. 10 is an image diagram showing a display screen of a method for viewing a moving image of a dough project in the moving image combining method according to the first embodiment. [FIG. 11] FIG. 11 is an image diagram showing a setting state of a monitoring camera in a forming and baking process in the moving image combining method of the first embodiment. [FIG. 12] FIG. 12 is an image diagram of a display screen of a moving image viewing method of a forming and baking process in the moving image combining method of the first embodiment. [FIG. 13] FIG. 13 is an image diagram of a moving image combining method combined at the same time in the moving image combining method of the second embodiment. [FIG. 14] FIG. 14 is an image diagram showing a display screen of a moving image viewing method of a cowshed in the moving image combining method according to the second embodiment.

Claims (8)

A surveillance camera system comprising: a video recording server connected to one or more cameras and one or more terminals through a network; the video recording server has: a camera image taken by the video camera is separated into a predetermined video recording time And save the image data as the individual image data in the folder; From the aforementioned folder, select the image data selection mechanism of the plurality of individual image data; For the selected individual image data, respond to the requirements of the plural links No and / or part of the deletion should be linked and / or partially deleted, and they should be used as the combination image data creation mechanism for the combination image data; Among the above combination image data, the combination image data displayed at the same time Each other, adjust the number of frames to the same number, and then adjust the frame interval to be the same. The combined image data displayed in sequence are arranged in the display order. All the adjusted combined image data are combined into a dynamic image. As a combination of image data A sending mechanism that sends the aforementioned combined image data to the aforementioned terminal and displays it. The surveillance camera system according to claim 1, wherein the aforementioned data storage mechanism makes the camera images captured by the plurality of cameras into a moving image format separated by a predetermined recording time and stores them in a folder as individual image data, and simultaneously The time difference data of each camera relative to the reference camera and the long recording time data of each camera are stored in a database; The aforementioned image data selection mechanism captures the shooting time from one camera among the cameras to be played The shooting time played by other cameras among the cameras to be played is calculated for each camera based on the time difference data. From the playback time unit of the one camera, the playback time unit of the other camera is based on The ratio of the long recording time data is calculated for each camera separately. From the aforementioned folder, the combined individual image data is selected for all cameras that are the object of playback; The aforementioned combined image data creation mechanism is for the selected one. Individual movie The data is linked and / or partially deleted in accordance with the necessity of plural links and / or the deletion of a part, and is processed from each playback shooting moment into image data of each playback time unit, which is used as the combined image data; The aforementioned combined image data creation mechanism, among the aforementioned combined image data, causes the combined image data displayed at the same time to display the combined image data of the respective playback time unit units at the same time for each combination. Use the image data to calculate the playback speed, adjust the frame number to the same number, and then adjust the frame interval to be the same. The combined image data displayed in order are arranged in the display order so that the combined image data displayed at the same time are all The method of dividing into one screen is to combine all adjusted combined image data into one moving image as combined image data. The surveillance camera system according to claim 1, wherein the video data selecting mechanism selects a shooting time for playback, and from the folder, the individual video data at the same time as the selected shooting time are targeted for playback All the cameras are selected; The aforementioned combination image data creation mechanism uses the selected individual image data as the combination image data; The aforementioned combination image data creation mechanism, so that the aforementioned combination image data are all divided into one screen for display. In the method, all the video data for combination are synthesized into one moving image as the combined video data. The surveillance camera system according to claim 1, wherein the image data selecting mechanism selects all the individual image data corresponding to the images from the shooting time at the start of playback to the shooting time at the end of playback from the folder; The image data creation mechanism links the selected individual image data according to the time sequence, and deletes the image before the shooting time at the start of playback and the image after the shooting time at the end of playback as the combined image data; An image data creation mechanism links and synthesizes one or more of the aforementioned image data for combination into one moving image as the combined image data. A dynamic image reading method includes a video server connected to one or a plurality of cameras and one or a plurality of terminals through a network, and using the camera images captured by the aforementioned cameras to form a dynamic image with a predetermined predetermined recording time. Format, and as a data saving step of storing individual image data in a folder; the aforementioned recording server, from the aforementioned folder, selecting a plurality of the aforementioned image data selecting steps of the individual image data; the aforementioned recording server, for the selected individual image data , According to the necessity of plural links and / or the deletion of a part to perform the linking and / or part of the deletion, and use them as the combination image data for the combination image data to create steps; the aforementioned recording server, in the aforementioned combination image Among the data, the combined image data displayed at the same time is adjusted to the same number of frames, and then the frame interval is adjusted to be the same. The sequentially displayed combination image data is arranged in the display order, and the adjusted combination is combined. Use the video data to synthesize all into a dynamic image as a combination Binding data as image data creation step; the video server, in conjunction with the aforementioned image data sent to the terminal and displaying the feeding step. A dynamic image combining method includes: a video recording server, which uses a plurality of cameras to take a camera image into a dynamic image format that is separated for a predetermined recording time and saves it in a folder as individual image data, and simultaneously The time difference data of each camera of the camera and the long recording time data of each camera are stored in the data storage step of the database; The video recording server, from the camera that is the target of playback, the shooting time will be The shooting time broadcasted by other cameras among the target cameras is calculated for each camera based on the time difference data. From the playback time unit of the one camera, the playback time unit of the other camera is based on the recording time. The ratio of the long data is calculated for each camera separately. From the foregoing folder, the individual image data combined is used to select the image data selection steps for all the cameras that are the object of playback; The aforementioned recording server is for the selected individual images. Capital It is necessary to perform linking and / or partial deletion in accordance with the necessity of plural links and / or the deletion of a part, and process from each playback shooting moment into image data of each playback time unit, and use them as the combined image data. Steps for creating combined image data; The foregoing recording server uses the combined image data for simultaneous display of the combined image data to be displayed at the same time among the combined image data. , Calculate the playback speed for each combination of image data, adjust the frame number to the same number, and then adjust the frame interval to be the same, and sequentially display the combination image data in the display order so that the combination of simultaneous display The image data is divided into one screen for display, and the adjusted combined image data is combined into one dynamic image, which is used as a step for creating combined image data combined with the image data. A method for combining dynamic images, including: a video recording server, a data storage step of storing video images taken by a plurality of cameras into a form of moving image separated by a predetermined recording time, and storing them as individual image data in a folder; The camera selects the shooting moment to be played. From the aforementioned folder, the individual image data at the same time as the selected shooting moment is selected as the image data selection step for all cameras that are the target of the playback; The aforementioned recording server, The selected individual image data is used as a step for creating the combined image data for the combined image data; The video recording server is configured to divide the combined image data into one screen for display and synthesize all the combined image data. Create a moving image as the combined image data for the combined image data. A method for combining dynamic images, including: a video recording server, a data storage step of storing a camera image captured by a video camera in a form of a dynamic image separated for a predetermined recording time, and storing the individual video data in a folder; the foregoing video recording server , From the foregoing folder, select image data selection steps corresponding to all individual image data of the image from the shooting time at the start of playback to the shooting time at the end of playback; The foregoing recording server performs the selected individual image data in accordance with the time sequence Link, delete the image before the shooting time at the beginning of playback and the image after the shooting time at the end of playback, and create the combined image data as the combined image data; The aforementioned recording server, one or more The above-mentioned combination image data is linked and synthesized into one moving image as a combined image data creation step of combined image data.