TW201813378A - Information processing apparatus, information processing system, information processing method, and program product - Google Patents

Abstract

According to the present invention, a processor performs: a trigger data extraction step for selecting, from measurement data, data matching a specified condition for each type of measurement data, and extracting, as trigger data, time information about the selected measurement data; an individual image data selection step for referring to a storage apparatus having stored therein measurement data types of a measurement device and cameras which are associated with each other, and selecting, for each of the cameras associated with the measurement data types, one or more individual image data sets obtained during a time period including a time at which the trigger data is obtained; a to-be-combined image data creation step for creating 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; and a combined image data creation step for compositing, as combined image data, one video using the to-be-combined image data sets.

Description

Information processing device, information processing system, information processing method, and program product

[0001] The present invention relates to a surveillance camera system that stores captured images or data and displays them at a terminal for theft prevention, management, etc., and a method for viewing animation in the surveillance camera system, and a plurality of The method of combining animation with animation.

[0002] In the prior art, in order to achieve the purpose of anti-theft or investigation or management, a camera system is introduced, which is an entrance, a storefront, or a street, factory, or delivery center of a building such as a concentrated house. To be the base of the surveillance target, and the surveillance camera is used to monitor at appropriate time, and the surveillance results are sent to the monitor of the user terminal via the Internet or other electrical communication lines for monitoring (for example, Refer to Japanese Patent Laid-Open No. 2013-51534, Japanese Patent Laid-Open No. 2002-77882, and Japanese Patent Laid-Open No. 2006-190294.

[0003] One aspect of the present invention is an information processing device used in a surveillance camera system, and is connected to one or a plurality of cameras and one or a plurality of measuring devices for photographing portraits via a network. The information processing device is characterized in that it is equipped with a processor, and the aforementioned processor performs the following steps: a trigger data extraction step is obtained for each of various types of measurement data from the aforementioned measurement device In the measurement data, select those that meet the specified conditions, and extract the time information of the measurement data as trigger data; and the individual image data selection steps refer to the interaction between the type of measurement data of the aforementioned measurement device and the camera A memory device attached as a memory is attached, and for each of the cameras to which the measurement data type is associated, one or a plurality of individual image data is selected, and the individual image data is a combination of the foregoing cameras. The captured camera portrait is set as individual video data in the form of an animation, and contains the aforementioned trigger information. The individual image data in the time zone of the time of the material; and the step of using the image data in combination, is based on the individual image data selected above, and responds to the need for multiple links and / or the need for partial deletion. The linking and / or partial deletion is performed as the combined image data; and the combined image data creation step is to synthesize the aforementioned combined image data into a single animation as the combined image data.

[0005] However, in the surveillance camera system of the prior art, although a plurality of cameras can be viewed at the same time during the broadcast of live broadcast images, it can only be performed once for archived images. There is a problem that the playback of one animation is poor. [0006] When a problem is discovered in the future, for example, at the delivery site, if you want to confirm the wrong delivery destination of a truck that has a problem, all the on-board images of the truck must be confirmed. Confirmation is made one by one, and unnecessary animations have to be viewed. Therefore, the visibility is poor, and there is a problem that it takes a lot of time from the detection to the problem until the cause of the problem is found. [0007] Therefore, the first object of the present embodiment is to solve the above-mentioned problems and provide a surveillance camera system and a surveillance camera system that only need to perform the necessary reading, and can improve the visibility at the time of confirmation. Method for viewing and combining animation in the surveillance camera system. [0008] The presenter of the present embodiment completed the present embodiment based on the following ideas, that is, the images obtained at the same time interval, not one animation and one time unit. To view the images of the surveillance camera in an animated manner, in order to effectively use the saved animation, the saved animation is used in a completely different way to generate a new-purpose animation. [0009] One aspect of this embodiment is to provide a surveillance camera system in order to achieve the above-mentioned object, which is characterized in that it is provided with a recording server, and the recording server is connected with a photographic image via a network. 1 or plural cameras, 1 or plural measuring devices, and 1 or plural terminals are connected, and a database is provided, and the database contains the portraits of the cameras taken by the aforementioned cameras as animations in the folder It is stored as individual image data, and the measurement data obtained from the measurement device is stored in a folder, and the measurement data type of the measurement device and the camera are related to each other. The recording server is provided with There are: triggering data extraction means, for each of the various types of measurement data described above, selecting from the measurement data that meets the specified conditions, and extracting the moment information of the measurement data as the triggering data; and The means for selecting individual image data is for each of the cameras that are associated with the type of measurement data. One, and select from the aforementioned folders to combine the individual image data of a specific time zone containing the aforementioned trigger data at a time or a plurality of individual image data; and the combined image data creation means is based on the selected individual image Data, in accordance with the need for plural links and / or the need for partial deletion, to perform the link and / or partial deletion, respectively, as the combined image data; and the combined image data creation means, which combines the foregoing The video data is synthesized into a single animation as the combined video data; and the sending means is to send the combined video data to the terminal. [0010] According to the first aspect of the present embodiment, since it is combined with recorded images, it is only necessary to read the necessary part, which can improve the readability in the future confirmation. . In addition, the animation can be viewed simultaneously or sequentially only for animations in which plural times such as 1 or plural triggers occur when the door is opened. In addition, it is only necessary to browse the combined animation corresponding to the purpose. Therefore, when a problem occurs, it is a laborious work that can take a long time to view most animations and find out the cause of the problem. reduce. By being configured to perform a plurality of simultaneous readings, the work load during reading is reduced, and the business progress is improved. In addition, since the system can watch more saved animations at the same time as compared to the conventional technology, the system can be expected to have an effect of improving the stopping power against crimes and the like. The department can easily confirm the authenticity of customer complaints, etc. at the time of delivery. Therefore, the department can expect the effect of reducing false customer complaints. While maintaining a high resolution, the amount of data is also small, enabling cost reduction. In addition, the original individual animation can be deleted as long as it is set in advance to save only the combined image corresponding to the purpose, so that the capacity can be reduced and the cost can be reduced. [0011] In this embodiment, the "network" refers to a communication network including a LAN or Internet, Wi-Fi line, 3G / LTE line, and dedicated line, and a combination of these network. In this embodiment, the camera is one or both of a camera that captures still images and a camera that captures animations, and the image captured by the camera may be one or both of still images and animations. Each camera is provided with an output function, a still image shooting function, and / or a movie shooting function. Ideally, the camera is an IP camera, but the camera can also be an analog camera. For the images obtained from the camera for still images, the compressed form of the animation is used. At present, it is H. 264 is more ideal. It is lightweight, And whether it ’s hardware or software, It is easy to install. also, Camera for photographic animation, More ideally, Is connected to the recording server via a LAN network, but, The system is not limited to this. also, The recording server in this embodiment, Can be connected to the camera via the Internet and collect portraits of the camera, or, The recording server in this embodiment, The system can also be configured to be connected to the camera without a network, And collect images of the camera through other servers connected to the camera via the network, Send the message from the collected server to the recording server in this embodiment. And create image data in the form of animation. And it is stored in the recording server in this embodiment. In addition, The recording server can also be a cloud server.  [0012] Further, Departments can also be structured as: It is equipped with measurement data to display image creation methods, It is all the types of measurement data that are displayed among the measurement data types that are associated with the selected individual image data cameras. And select the measurement data in the specific time zone and create a measurement data display image, The aforementioned method of combining image data, Regarding the combination image data displayed at the same time among the aforementioned combination image data, The frame number is adjusted to the same number and the frame interval is adjusted to be the same. For the combined image data that is displayed sequentially, Arranged in display order, Combining the measurement image display image with the combination image data, And combine all the adjusted combined image data into one animation, And as a combination of image data.  [0013] Since the value of the measurement data can be confirmed together with the image, So for convenience, also, Due to the frame adjustment, therefore, Even if the frame number or interval of the original image is different, Because it will be adjusted, So it does n’t contain useless portraits, The images from multiple cameras can be combined and displayed simultaneously.  [0014] The second aspect of this embodiment, In order to achieve the above purpose, And provides a method for viewing animation, Its characteristics are: Recording server, It is connected to one or more cameras, one or more measuring devices, and one or more terminals for taking pictures via the Internet. And have a database, The database, The camera image taken by the aforementioned camera is saved as an individual image data in the folder as an animation form, And save the measurement data obtained from the measurement device in a folder, And the correlation between the type of measurement data of the aforementioned measurement device and the camera, Make the recording server perform the following steps: Trigger the data extraction step, For each of the various categories of the aforementioned measurement data, And select from the measurement data that meets the specified conditions, And extract the moment information of the measurement data as trigger data; And individual image data selection steps, For each of the cameras to which the type of measurement data is attached, And from the aforementioned folder, select one or a plurality of individual image data of a specific time zone containing the moment of the aforementioned trigger data; And combined with image data creation steps, For selected individual image data, In response to the need for plural links and / or the need for partial deletion, To link and / or partially delete, And used as combined image data; And measurement data selection steps, All types of measurement data related to the selected camera attached to the individual image data, And select the measurement data of the aforementioned specific time zone; And combining image data to create steps, Synthesizes the aforementioned combined image data into a single animation as the combined image data; And submit steps, The aforementioned combined video data is transmitted to the aforementioned terminal.  [0015] According to the second aspect of this embodiment, Is the same as the first aspect of this embodiment, You only need to read the necessary parts. It can improve the readability in the future confirmation.  [0016] The third aspect of this embodiment, Provides a method of combining animation, Its characteristics are: Recording server, Has a database, The database, The camera images taken by one or more cameras are saved as animated images in the folder as individual image data. And save the measurement data obtained from one or more measurement devices in a folder, And the correlation between the type of measurement data of the aforementioned measurement device and the camera, Make the recording server perform the following steps: Trigger the data extraction step, For each of the various categories of the aforementioned measurement data, And select from the measurement data that meets the specified conditions, And extract the moment information of the measurement data as trigger data; And individual image data selection steps, For each of the cameras to which the type of measurement data is attached, And from the aforementioned folder, select one or a plurality of individual image data of a specific time zone containing the moment of the aforementioned triggering data; And combined with image data creation steps, For selected individual image data, In response to the need for plural links and / or the need for partial deletion, To link and / or partially delete, And used as combined image data; And combining image data to create steps, The above-mentioned combined video data is synthesized into a single animation as the combined video data.  [0017] According to the third aspect of this embodiment, Because it is combined with video images, therefore, You only need to read the necessary parts. It can improve the readability in the future confirmation. also, The animation can be viewed at the same time or sequentially only for animations that occur when the door is opened, such as when the door is opened, such as 1 or plural triggers. therefore, When problems occur, It is able to reduce the labor that takes a long time to view many animations and find out the cause of problems. By being structured for plural simultaneous viewing, The work load during reading is reduced, The business process was improved. also, Since it is able to watch more saved animations at the same time compared to the previous technology, Therefore, it is possible to expect the effect of improving the restraint power against crimes and the like. The department can easily confirm the authenticity of customer complaints, etc. at the time of delivery. Therefore, The department can expect the effect of reducing false customer complaints. While maintaining high resolution, The amount of data is also small, It can be reduced in cost. also, As long as it is set in advance to save only the entire batch of triggered animations as one combined image, You can delete the original individual animation, therefore, It can reduce the capacity and reduce the cost.  [0018] According to this embodiment, You only need to read the necessary parts, It can improve the readability in the future confirmation.  [0019] Following, In this embodiment, An example is used to specifically describe this embodiment. but, This embodiment, The system is not limited by these examples.    [Embodiment 1] [0020] This embodiment, In order to save the images captured by the surveillance camera and store them in a form that is easy to view, It is also used to extract and connect the parts that have triggered (TRIGGER), and to combine and display them. Specifically, The surveillance camera is operated by a recording server via a network. Recording server, It is used to shoot camera images of animation and still images, Based on the collected primary data, For each of the cameras, And create individual image data that is secondary image data that ends in a specific time unit as an animation, And combine the plural secondary image data to make the combined image data which is the third image data, Recording server, For users' terminals, In response to requests from the terminal, When sending a message through the network, the triggered part is extracted and connected to each other to be synthesized for monitoring. In addition, Not only being able to play, But also rewind, Fast forward. Therefore, In this embodiment, The system can effectively use the saved images. E.g, In the future, if you want to confirm whether there is a time zone in which foreign matter is mixed in when a material is put in a certain operating room, The department can know the result immediately, and, When you want to confirm the suspicious behavior of a staff member against a problematic batch in the future, The department can know the result immediately, Simultaneously, It is able to play back only the images when the door is open. And immediately knew if any suspicious characters had entered the operating room. Therefore, If according to this embodiment, It can improve the readability of future confirmations, In addition, it is possible to investigate the reasons why it has taken a long time and labor to perform investigations in the past with a very short time and a minimum labor.  [0021] (Composition) Figure 1, This is a diagram showing an example of the network configuration of the first embodiment of the surveillance camera system of this embodiment. On a LAN or Internet, Wi-Fi lines, 3G / LTE lines, On a network 500 formed by a combination of communication networks such as dedicated lines, Department (1) as a camera for photographic portraits, There are multiple surveillance cameras (for still images) 400A ～ C and surveillance cameras (for animation) 401; (2) As the surveillance camera 400 via the network 500, 401 makes a connection to obtain the image data captured by the camera, saves it, and sends it to the recording server at the terminal. And has a recording server 100; (3) as a terminal connected to the recording server 100 via the network 500 and receiving image data from the recording server 100 for display, Reading PCs 300A-C with mobile terminals 200A-C with smart phones, desktop PCs (personal computers) or notebook PCs; (4) As a measuring device connected to the recording server 100 via the network 500 and transmitting measurement data to the recording server 100, Is connected to the RFID sensor 700A, Beacon sensor 700B, On / off sensor 700C for automatic doors, etc. Temperature sensor 700D. also, Through other system databases such as open databases, A sensor 700E is connected. camera, It can be a surveillance still camera only, It can also be a surveillance video camera, and, As long as it is within the processing range of the camera, There are no restrictions on the number of units. In addition, the following, When referring to mobile terminals and viewing PCs collectively, It is called "Terminal" or "Viewer". Measuring device, Department is for illustration only. It may also be a measuring device or a sensor. In this embodiment, ON / OFF sensor 700C, Is a sensor for HTTP connections, 700D temperature sensor, Is a SOCKET connection, but, It can be other connection methods such as FTP connection. How to send data from the measurement device to the recording server, For the recording server from the side of the measuring device, for example, 5 minutes, 10 minutes, Senders at intervals of 1 hour, It is also possible to obtain data for the measurement device from the recording server side at short intervals, such as every second. Because the recording server directly obtains temperature information and the like from the temperature sensor 700D, Therefore, it becomes possible to obtain information in a short period of time. Since it is the same connection as the camera, therefore, Connections from outside the local network, Set the port forwarding and other settings at the router. Other system database connected to the sensor 700E, It is the original cloud database of the sensor 700E. The sensor 700E is uploaded to the database every 10 minutes. Recording server, Data are obtained from this database. If you follow this method, Although it is impossible to obtain information in a short cycle, However, it is possible to obtain information without being affected by the installation environment of the device. The type or number of measuring devices, It can be any number of 1 or more. also, Regarding the connection method with the recording server, It may be a connection other than the connection method described above.  [0022] Recording server 100, Although it exists in the same LAN as the surveillance camera (for animation) 401 for shooting movies, but, The system does not necessarily exist in the same LAN as the surveillance camera (still image) 400 for shooting still images. It can also be connected via a plurality of networks such as the Internet or LAN. also, On the same network, There may also be a plurality of recording servers. In this embodiment, Surveillance camera 400, Communication between 401 and recording server 100, It is TCP / IP method, Surveillance camera for still images (for still images) 400, Even if the camera and recording server are not on the same LAN, It is also possible to reliably send and receive portrait data. Reliability is high. Surveillance camera 400, 401, In this embodiment, It ’s an IP camera. but, Departments can also be analog cameras. Viewing PC300 as a terminal for image display, It is also not limited to the case where the recording server 100 exists in the same LAN, It can also be connected via a plurality of networks such as the Internet or a LAN or Wi-Fi line. Regarding the mobile terminal 200 as a terminal for image display, The same, Also via LAN, Internet, A plurality of networks such as a mobile phone network (Wi-Fi line, 3G / LTE line, etc.) are connected. In addition, Between the LAN and the Internet, Between surveillance cameras for still images and the Internet, Between the measurement device of the HTTP connection and the Internet, The system has a router 600. figure 1, This is an example of a connection example that connects a surveillance camera (for animation) and a surveillance camera (for still images), a viewing PC, a mobile terminal, and a measurement device to a recording server via a plurality of networks. but, The system is not limited to this. In this embodiment, Surveillance camera 400, Communication between 401 and recording server 100, It is performed using TCP with high reliability after communication is established. but, It is also a UDP that can send data quickly without establishing a conversation, and is excellent in timeliness. Whether through TCP, What is UDP protocol? Both were able to obtain portraits. Based on measurement data sent from recording devices such as various sensors, bar code reading devices, or RFID information reading devices to recording servers The presence or absence of triggers of 1 or plural types is detected.  [0023] 1 recording server 100, It is available from multiple surveillance cameras 400, 401 and get a portrait. In this embodiment, Since the recording server 100 side automatically distributes network traffic, therefore, No network design is required. Just connect the camera to the port. Therefore, The operation system becomes very simple. also, Even when communication is interrupted, It's easy to start again.  [0024] FIG. 2, It is a configuration diagram of a recording server of the first embodiment of the surveillance camera system of this embodiment. Video server 100, The department has: It is equipped with control of CPU101, device driver, etc. with memory 102 as flash memory, Calculation device And a memory device 110 having a main memory device such as a DRAM and an auxiliary memory device such as a hard disk; Communication control device with network interface 104, etc .; And a display 103 as a display device; And an input / output device composed of a keyboard 105, a mouse 106, and the like. In the memory device 110, A folder of portraits 111, And secondary image folders 112, And three image folders 116, And animated links, Combining various programs such as program 113, authentication database and environment setting folder, etc. And the operating system 114 is stored. The combined image data used as the combined image data of the third image data from the individual image data as the secondary image data, It is also stored in a folder in the memory device 110. also, The measurement data obtained from the measurement device, It is also stored in a folder in the memory device 110. and then, A database that correlates the types of measurement data of the measurement device with the cameras, It is also stored in the memory device 110. Link with animation, Combining various programs led by program 113, usually, Is stored in the auxiliary memory device of the memory device 110, It is loaded into the main memory device during execution. In a portrait folder 111, The camera portraits are saved as a single source, In the secondary image folder 112, It is an animation compression conversion of a certain amount of data accumulated in a portrait folder 111 for a certain time, And save as secondary image data. The secondary image data, It is an individual image data for the animation of the camera portrait taken by the camera. In the certification database, It stores the ID of the acceptance information as mobile terminal 200 and viewing PC300, password, Personally Identifiable Information (UID), And are stored as surveillance cameras 400, 401 and measurement device 700 access information IP address, Port number, ID, password. In this embodiment, Video server 100, In order to integrate the recording server and the terminal device and also to function as a terminal device that displays an image, Or for maintenance and management, And equipped with a display 103, And a keyboard 105 and a mouse 106 as input means. When it is not necessary to play the camera portrait at the recording server, The system may not have a terminal function as an image display device. In the environment settings folder, The acquisition timings of the images of each surveillance camera are stored, Interval between the creation of primary data and secondary image data, Compression conditions, The conditions for the layout of the three image data (combined with the image data), etc. Interval between the creation of primary data and secondary image data, Compression conditions, Measurement data acquisition timing, The measurement data created from the measurement data shows various conditions and layouts of the image. Video server 100, It's a setup server. but, Department can also be a cloud server.  [0025] Again, The recording server in this embodiment, Has a database, The database, This is the playback unit time data for each type of measurement data for each measurement device.  [0026] Recording server 100, By having the CPU 101 link the animation, Load the program 113 into the memory 102 and execute it. A computer function capable of performing the animation and editing processing in this embodiment is realized. CPU101, It is an arithmetic processing device installed in a general computer. Various programs are executed and various controls are performed.  [0027] Recording server 100, Can be a server, It may also be a server group formed by a plurality of servers. E.g, For the secondary image folder, It can also save the secondary image data after a certain period (such as 24 hours), It is set as a secondary image folder which is set in another recording server which is different from the recording server from which the camera image is obtained. By saving the past saved data which is not frequently played, It becomes possible to monitor a larger number of cameras on the same network.  [0028] The recording server 100, Connection with surveillance cameras, And every certain time (such as 1 second), Use the connected surveillance camera for still image photography to capture still images and input the captured camera images to the recording server. And every certain time (for example, 10 seconds), Continuously capture the animation by using the connected surveillance camera for surveillance photography and input the captured camera image to the recording server. And compress it to make a piece of data, It is then stored in the primary image file 111 of the memory device 110. after that, The primary data is combined at a certain time (for example, 10 minutes), and a time stamp is added to convert the secondary data into compressed secondary image data in the form of animation. In this embodiment, Secondary image data (that is, individual image data), Are data for the same amount of time, And all are adjusted to the same number of frames. In this embodiment, Individual image data set in units of 10 minutes, but, The system is not limited to this.  [0029] In this embodiment, Image combination method, Is a trigger combination, And it is configured to display the images before and after the trigger for a certain time in a time series for one camera, and display them side by side and continuously, Or, for a single camera, combine the images before and after the trigger for a certain period of time and display them on one screen. Or for a plurality of cameras, the images before and after the trigger are combined and displayed on one screen.  [0030] Recording server 100, Connection with the measuring device 700, And at regular intervals (for example, 5 minutes, 10 minutes, 1 hour) to obtain measurement data sent from the measurement device, Or the measurement device sends measurement data and obtains the measurement data at a certain time (for example, 1 second), And stored in a folder of the memory device 110.  [0031] FIG. 3, It is a schematic diagram of a display method (temperature measurement example) in the case of the measurement server of the recording server database and the measurement device and the image in the first embodiment of the surveillance camera system of this embodiment. Video server 100, Tied to the database, It is equipped with a sensor master, which is connected to the measurement device key, information collection interval, and connection method for each measurement device, And the camera master file with the camera key and image collection interval and connection method for each camera, And for each measurement type (that is, a sensor item) of each measurement device, the sensor item key and the measurement device (sensor) key and the item name and unit are attached Sensor project main file, And the sensor item camera and camera key with the sensor item key and the camera key attached to it are connected.  [0032] animation link, Combined with the program, A program used to make a computer implement the following functions: (1) trigger data extraction function, For each of the various categories of measurement data, From the measurement data, Choose those that meet the specified conditions, And extract the moment information of the measurement data as trigger data; (2) Individual image data selection function, For each of the cameras to which the type of measurement data is attached, And select from the folder 1 or a plurality of individual image data of a specific time zone containing the moment of trigger data; (3) Combined with image data creation function, For selected individual image data, In response to the need for plural links and / or the need for partial deletion, To link and / or partially delete, And used as combined image data; (4) Combined with image data creation function, The combination video data is combined into one animation as the combined video data; (5) Terminal connection function, Is connected to the terminal; (6) Reading request acceptance function, Accepting animation viewing requests from the terminal; (7) Sending function, The combined image data is sent to the terminal and displayed. Regarding the settings of which camera images are to be combined, The need for plural links and / or the need for partial deletion, Each of the triggers has time requirements for creating an image from a few minutes before the trigger to a few minutes after the trigger, Is to pick up the image of the camera based on the trigger of the measurement device, It is stored in the database of the recording server 100 as a combination condition in advance.  [0033] In this embodiment, Animation links, Combined with the program, It is a program that further enables the computer to: (8) Measurement data display image creation function, It is all the types of measurement data displayed among the measurement data types to which the selected individual image data cameras are related, And select the measurement data in the specific time zone and create a measurement data display image, also, (4) The function of combining image data, To achieve the following general combined image data creation function: That is, For the combined image data that is displayed simultaneously among the combined image data, The frame number is adjusted to the same number and the frame interval is adjusted to be the same. For the combined image data that is displayed sequentially, Arranged in display order, Combining the measurement data display image with the combined image data, And combine all the adjusted combined image data into one animation, And as a combination of image data.  [0034] In addition, In this embodiment, The rewind request, fast forward request, and playback request regarding the combined video data displayed on the terminal are accepted from the terminal. According to the requirements, the rewinding of the displayed combined image data, Fast forward, Play.  [0035] In this embodiment, The secondary image data is created every certain time (for example, 10 minutes). If there is secondary image data, It can be combined into three-dimensional image data. Since it is only possible to trigger the presence of a plurality of cameras, Watching in one frame or continuously And send it from the recording server to the terminal as a single animation, Therefore, only a small amount of data is required.  [0036] In this embodiment, Monitoring the connection between the camera and the recording server, It is carried out by TCP / IP. To identify surveillance cameras, Certification first, Requests for photography of camera portraits are made thereafter. The connection between the terminal and the recording server, It is also carried out by TCP / IP. And first confirm that the terminal is a terminal registered in the recording server, Then send the portrait. Certification, Ideally, the authentication is caused by the authentication database on the recording server.  [0037] Recording server 100, At the beginning of each connection, IP addresses and port numbers of surveillance cameras, terminals, and measuring devices, UID for investigation, In a local environment (for example, When the connection between the camera, the terminal and the measuring device in the same LAN) is started, By using an IP address and port number, UID connection to specify the connection object, Authentication is performed with the user ID and password set on the recording server side. Video server 100, When connected to a surveillance camera located in a remote environment, such as via the Internet, By using the router's port transmission (also shown as port forwarding, etc.), Use the global IP address and port number to specify the connection target. Video server 100, When the connection with the mobile terminal 200 or the viewing PC 300 is started, Since the terminal is specified based on the terminal-specific information using the UID, Therefore, the authentication is based on the user ID and password, and the unique information of the terminal. It becomes possible to perform image display.  [0038] FIG. 4, It is a block diagram of a measurement device (HTTP connection) of the first embodiment of the surveillance camera system of this embodiment. Measuring device 700 for HTTP connection, Department is accompanied by memory 702. and, The department has: Equipped with control of CPU701, device driver, etc. Calculation device And a memory device 710 having a main memory device such as a DRAM and an auxiliary memory device such as a hard disk; And an input / output device constituted by a communication control device such as a network interface 704 and the like, and a display 703 and the like as a display device. In the memory device 710, Is stored with a program containing data collection programs, etc. 713, And operating system 714, And HTTP server 717, And digital / analog conversion 718. Measuring device 700 for HTTP connection, E.g, It is a measuring device that can also be a commercially available HTTP connection type. CPU701, It is an arithmetic processing device installed in a common measuring device. Various programs are executed and various controls are performed. When measuring by analogy, The digital / analog conversion 718 stored in the memory device 710 is connected at the analog sensor 716, And convert it into digital data for data collection, Send the data to the recording server. Measuring device 700 of other connection methods, It also collects data. And send the data to the recording server. In the serially connected measuring device 700, It uses RS232C / RS485 serial device. Port connection (socket connection), It is the measuring device 700 of TCP / IP connection, The data is sent to the recording server through TCP / IP communication.  [0039] FIG. 5, It is a block diagram of a terminal (mobile terminal) according to the first embodiment of the surveillance camera system of this embodiment. Mobile terminal 200, Department is accompanied by memory 202. and, The department has: Equipped with control of CPU201, device driver, etc. Calculation device And memory device 210, And communication control devices for transmitting and receiving data; And a display 203 as a display device; And input / output devices such as operation keys or touch panels. In the memory device 210, The image display program 213 and the operating system 214 are stored. Mobile terminal 200, For example, mobile phones such as smartphones, And by having the CPU 201 load the image display program 213 into the memory 202 and execute it, To realize the function of a computer that can perform the portrait display of this embodiment. CPU201, It is a calculation processing device installed in a common mobile terminal. Various programs are executed and various controls are performed.  [0040] In this embodiment, Recording server 100 and viewing PC300, Are constructed as personal computers, In addition, it has the clock functions of ordinary personal computers. Mobile terminal 200, It also has a clock function.  [0041] FIG. 6, It is a block diagram of a terminal (PC) according to the first embodiment of the surveillance camera system of this embodiment. Reading PC300, Department is accompanied by memory 302. and, The department has: Equipped with control of CPU301, device driver, etc. Calculation device And a memory device 310 having a main memory device such as a DRAM and an auxiliary memory device such as a hard disk; And a communication control device via a network interface 304, etc., and a display 303 as a display device, Keyboard 305, Input / output device composed of mouse 306 and the like. In the memory device 310, The image display program 313 and the operating system 314 are stored. Reading PC300, Such as a desktop PC or a notebook PC, Tablet terminal, etc. The CPU 301 loads the image display program 313 into the memory 302 and executes it. The function of a computer capable of displaying an image in this embodiment is realized. CPU301, It is an arithmetic processing device mounted on a normal PC. Various programs are executed and various controls are performed.  [0042] portrait display program, It is a terminal connection function used to enable the computer to connect with the recording server, Image display function program for displaying images sent from the recording server.  [0043] In this embodiment, Portrait display program, As a more desirable aspect, Programs that are used to make the computer also perform the following functions: That is, Accept input for rewind or fast forward requests, And for the recording server, the rewinding of the image before or after the amount of a certain unit of the combined image data that is the three image data, Fast forward request function.  [0044] In this embodiment, Since the images from multiple cameras are combined and animated, therefore, It can rewind the images of all cameras in the display, Fast forward.  [0045] With animation links, A program that combines an animation viewing method of a program and an image display program, It is used to make the computer execute the steps caused by each program.  004 [0046] Various sensors and bar code reading devices and RFID information reading devices installed together with surveillance cameras, Network or serial connection with the recording server. Or send the information converted by the repeater to the recording server. E.g, When a door opening / closing sensor is installed together with a surveillance camera mounted on a truck, The door opening and closing information and the camera image are sent to the recording server. Recording server, Database management for sensor information. In contrast to the animation combination instructions, the purpose is to generate the combined image data for the purpose. E.g, When a plurality of surveillance cameras and RFID information reading devices are installed on the conveyor belt where the product is manufactured, The surveillance camera and the RFID information reading device are related to each other in advance, And the information loaded into the RF tag of the product is read by a reader, And the place is managed by information.  [0047] In this embodiment, It is equipped with a surveillance camera 400 for capturing images through a network 500, 401 connected to the recording server 100, And a terminal 200 connected to the recording server 100 via the network 500 and displaying an image, 300, At the recording server 100, There are various means, It is connected to the surveillance camera, And every certain time (such as 1 second), Use the connected surveillance camera for still image photography to capture still images and input the captured camera images to the recording server. And every certain time (for example, 10 seconds), Continuously capture the animation by using the connected surveillance camera for surveillance photography and input the captured camera image to the recording server. And compress it to make a piece of data, It is then stored in the primary image file 111 of the memory device 110. after that, The primary data is combined at a certain time (for example, 10 minutes), and a time stamp is added to convert the secondary data into compressed secondary image data in the form of animation. and then, At the recording server 100, Department is also set with: (1) trigger data extraction methods, For each of the various categories of measurement data, From the measurement data, Choose those that meet the specified conditions, And extract the moment information of the measurement data as trigger data; (2) individual image data selection methods, For each of the cameras to which the type of measurement data is attached, And select from the folder 1 or a plurality of individual image data of a specific time zone containing the moment of trigger data; (3) Combined with image data creation methods, For selected individual image data, In response to the need for plural links and / or the need for partial deletion, To link and / or partially delete, And used as combined image data; (4) Combined with image data production methods, The combination video data is combined into one animation as the combined video data; (5) terminal connection means, Is connected to the terminal; (6) Means of accepting reading requirements, Accepting animation viewing requests from the terminal; (7) Sending means, The combined image data is sent to the terminal and displayed.  [0048] In this embodiment, Video server 100, The department further has: (8) The measurement data shows the means of image creation, It is all the types of measurement data displayed among the measurement data types to which the selected individual image data cameras are related, And select the measurement data in the specific time zone and create a measurement data display image, also, (4) the method of combining image data, It has become the following general means of creating image data: That is, For the combined image data that is displayed simultaneously among the combined image data, The frame number is adjusted to the same number and the frame interval is adjusted to be the same. For the combined image data that is displayed sequentially, Arranged in display order, Combining the measurement data display image with the combined image data, And combine all the adjusted combined image data into one animation, And as a combination of image data.  [0049] In this embodiment, Video server 100, By the aforementioned hardware structure and animation link, Combined with program 113, It functions as a means of (1) to (8).  [0050] Again, At the terminals (mobile terminal 200 and viewing PC300), The system settings are: (1) the image display means for displaying the image sent from the recording server 100, (2) Rewind requirements, fast forward requirements, and playback methods.  [0051] In this embodiment, Terminal 200, 300, Based on the aforementioned hardware configuration and image display program 213, 313, It functions as a means of (1) to (2). E.g, When playing on the day after the recording, etc., Select the day and time of the video you want to play. And will be called by the file converted into 2 data in 10 minute units, And play. It can also rewind or fast forward during playback.  [0052] The surveillance camera system of this embodiment, A video server connected to a group of cameras for still images or animation via the Internet. At certain times, Use TCP / IP to obtain camera portraits from the aforementioned camera groups and still images or animations. And compress it to make a data, For a certain period of time, It is maintained in a state of data once for preservation. After a certain period of time, It is converted into the secondary image data of the highly compressed animation file with time stamp information and saved again. In this embodiment, H. 264 format for compression and conversion to an animation file. Furthermore, it is a combination of a plurality of individual image data, which is a secondary image data, in a form formulated in a recording server or a form that follows the hope from a terminal, and simultaneously The combined animation is displayed in parallel in combination, and the three-time image data (that is, the combined image data) is created and displayed at the terminal. [0053] The surveillance camera system of this embodiment only needs to perform the necessary part viewing, and can improve the visibility during subsequent confirmation. The system can simultaneously play the animations of a plurality of cameras, for example, it can shorten the time from the detection of the problem until the cause of the problem is identified. [0054] (Processing Procedure) Next, the processing of the animation combining method in the first embodiment of the surveillance camera system of the present embodiment described above and the animation viewing method of the first embodiment using the animation combining method of the present embodiment are processed. The procedure is explained. In addition, the description of the processing procedure using the drawings is an example of using a thermometer, an example of an automatic door, and an example of truck delivery. No matter which one is, the basic processing procedure is the same, but the type of the measurement device, the type of the trigger, and the combination conditions are different. [0055] The animation viewing method in the animation combining method of this embodiment causes the recording server to perform each of the following steps, wherein the recording server is connected to one or a plurality of cameras through the network It is connected to 1 or more measuring devices and 1 or more terminals, and has a database, which uses the camera portraits taken by the aforementioned cameras as an animation to make them in the folder as individual image data. Save and save the measurement data obtained from the measurement device in a folder, and add the correlation between the type of measurement data of the measurement device and the camera. These steps include: (1) triggering The data extraction step is for each of the various types of measurement data, and selects from the measurement data that meets the specified conditions, and extracts the time information of the measurement data as trigger data; (2) individual images The data selection step is to select from a folder for each of the cameras to which the measurement data type is associated. The combination of individual image data in a specific time zone containing the time of the trigger data or a plurality of individual image data; (3) The combination of image data creation steps is based on the selected individual image data and responds to the need for multiple links Whether or not and / or partial deletion is required, to link and / or partially delete, and use them as combined image data; (4) measurement data selection step is for the camera with the selected individual image data Add all the types of measurement data related to connectivity, and select the measurement data in the specific time zone mentioned above; (5) The step of combining the image data is to combine the combined image data into one animation as the combined image data; ( 6) The sending step is to send the aforementioned combined image data to the terminal and display it. [0056] Furthermore, in this embodiment, after the measurement data selection step of (4) and before the combined image data creation step of (5), it further includes: (8) the measurement data display image creation step, For all types of measurement data displayed among measurement data types that are associated with the selected individual image data cameras, select the measurement data in the aforementioned specific time zone and create a measurement data display image, In addition, the combined image data creation step of (5) is the following general combined image data creation step: that is, for the combination image data displayed at the same time among the combination image data, the number of frames is calculated. Adjust to the same number and adjust the frame interval to be the same. For the combined image data to be displayed in order, arrange them in the display order, combine the measured image display image into the combined image data, and adjust the All the combined image data are combined into a single animation and used as the combined image data. [0057] In the recording server, the camera portraits sent intermittently or continuously from the plurality of surveillance cameras are saved as a single piece of data in a single portrait folder, The secondary image data created by the data is stored in the secondary image folder. Secondary image data are individual image data made from the camera's portrait into an animation form and stored in a folder. At a point in time after the creation of the individual image data as a target, since it can respond to the display request of the combined image data from the terminal, it can be used for the images of the multiple cameras at a earlier stage. For confirmation, readability is high. [0058] In this embodiment, the types of cameras, triggers, and the combination methods are stored in the recording server in advance. However, they can also be configured as a selection of a camera that is first accepted as a target for playback from a terminal. And trigger selection, and then accept the selection of the combination method of the image, and then link and combine the individual images based on the accepted combination method to make the terminal display. [0059] In this embodiment, all the cameras selected by the recording server in a method established in advance are used, and the individual image data of a specific time zone containing the time of trigger data is made for each camera. 1 or more options. The method of combining animation in this embodiment, for example, is to make only the images before and after the temperature measured by the temperature and humidity sensor to which a specific camera is connected is a certain temperature or more. It is a useful combination method for continuous confirmation, or for one-time confirmation of images of cameras set in plural directions only when the door is opened. [0060] If an animation viewing request is accepted from a terminal, in this embodiment, it is 1 or plural for individual image data in a specific time zone including the time when trigger data is included for all selected cameras. Of choice. The trigger data is the time information of the measurement data selected to meet the conditions specified for each of the measurement data types. For example, if the description is based on the example shown in FIG. 3, the measurement device "temperature hygrometer A" (key key S01), which is a temperature and humidity sensor, is connected to the camera 001 (key C01). The type of measurement data is temperature (key I01) and humidity (key I02). When the temperature (key I01) specified as one of the types of measurement data is 25 ° C or higher, When the temperature and humidity sensor (key SO1) is used to record measurement data (key I01) at 25 ° C or higher, the information is from 12: 5 to 12: 7 and from 13:15. The data is triggered until 13:20, and when the measurement device is a temperature and humidity sensor and the type of measurement data is temperature (key I01), it is from 12: 5 to 12: 7. And from 13:15 to 13:20, if the specific time zone containing the trigger data is set to 2 minutes before and 3 minutes after, the selected camera 001 (key key CO1) Individual video data is from 12:30 to 12:10 and Data from 13:13 to 13:23. [0061] In a case where the display method is for simultaneous display of images from a plurality of cameras, a temperature-humidity measuring device "temperature hygrometer A" which is related to the camera 001 (key C01) is added. The type of measurement data (key S01) is temperature (key I01) and humidity (key I02), and the conditions specified for the temperature (key I01) which is one of the types of measurement data are When it is 25 ° C or higher, the time information when the measurement data (key I01) of 25 ° C or higher is recorded by the temperature and humidity sensor is from 12: 5 to 12: 7, and The camera 002 (key C02), which is another camera, has a related temperature and humidity sensor "thermometer B" (key S02), and the same specified conditions are set. The temperature and humidity sensor (metal Key SO2) and the time information recorded when the measurement data is above 25 ℃ is from 13:15 to 13:20, the data is triggered. When the measurement device is a temperature and humidity sensor (key S01) , Key S02) and measurement data When the type is temperature (keys I01 and I03), camera 001 (key C01) will be from 12: 5 to 12: 7, and camera 002 (key C02) will be from 13 o'clock. From 15 minutes to 13:20, if the specific time zone containing the trigger data is set to 2 minutes before and 3 minutes after, the selected individual image data will be on camera 001 (key CO1) The data is from 12: 3 to 12:10, and the data from camera 002 (key C02) is from 13:13 to 13:23. Individual image data from camera 001 (key CO1) from 12.3 to 12:10 and camera 002 (key C02) from 13:13 to 13:23 , And "the frame interval and the number of frames are adjusted to the same number among the data, and the adjusted combined image data is displayed on one screen in a divided manner to be synthesized into one animation" The person or the person who "combined the measurement data display image with the adjusted combined image data to create one animation" is the combined image data. [0062] When the display method is a continuous display for a video from one camera, the display method is as follows. FIG. 7 is a schematic diagram of an animation connection method (a thermometer measurement example) in Embodiment 1 of the animation combination method of this embodiment. If the specified condition is for a temperature (hygrometer A01) (key S01) whose measurement data type is temperature (key I01), it is set to 30 ° C, and a specific time zone containing the time of triggering the data, Set the previous 2 seconds and the next 5 seconds, and set the animation unit to 1 hour, then the camera 011 (key C01) will be from 12:26:25 to 12:26:37 The individual image data up to 12: 28: 6 seconds and 12:28:13 seconds are linked as the combination image data, and the combination image data or a specific type of measurement data will be combined The measurement data (I01, I02, and I03) display data is combined with the combined image data to create a single animation data, which becomes the combined image data. [0063] When the display method is the simultaneous display of images from one camera, the individual image data from 12:26:25 to 12:26:37 for the camera and from 12:28 Individual image data from 6 minutes to 12:28:13, and "the frame interval and the number of frames are adjusted to the same number among the data, and the adjusted combined image data is all 1 Those who divide and display on each screen to synthesize into one animation "or those who" combined the measurement data display image with the adjusted combined image data to create one animation "are the combined image data . [0064] FIG. 8 is a schematic diagram of a measurement data acquisition process (an example of an automatic door) according to the first embodiment of the animation combining method of this embodiment. If the recording server is a measurement device (for example, an HTTP connection sensor that becomes "ON" when the automatic door is "open" and "OFF" when it is "closed"), it requires an HTTP communication connection , And complete the connection by user and password authentication, and require measurement data (sensor data) for the sensor at a certain time, the measurement data obtained on the sensor side is sent to At the recording server, the acquired measurement data is stored in the device database of the recording server. [0065] FIG. 9 is a schematic diagram of an animation linking process (an example of an automatic door) according to Embodiment 1 of the animation combining method of this embodiment. If the viewing request is received from the terminal, the creation of the combined image data, which is the third image data, is started by a method set in advance on the recording server. In this embodiment, it is the link of the images of the same camera. According to the measurement device that will become the measurement data that the sensor will become "ON" when the automatic door is "open", the recording server will become " The time information of the ON data (that is, the trigger data) is set to 9: 5: 2, 9: 13: 7, 9:20:17, and the animation unit is set to 1 minute. When the start condition is set to the start of the animation unit containing trigger data and the end condition is set to the end of the animation unit containing trigger data, that is, one animation unit is generated as a unit of individual image data Animation of people entering and leaving around 9 o'clock. According to the secondary image data of the target camera (in the case of FIG. 9, it is the camera on the front of the automatic door), based on the trigger data, as the individual image data, pick one from 9: 5: 0. Video data of minutes, video data of 1 minute from 9: 13: 0 seconds, video data of 1 minute from 9: 20: 0 seconds, and linking these animations in time series to create The combined image data is used as a single animation and saved as the combined image data (that is, the third image data). [0066] FIG. 10 is a schematic diagram of a linking operation procedure in the first embodiment of the animation combining method according to this embodiment. The individual image data of the camera that is related to the "1st trigger data" is the image of camera CAM01 from 10:00 and the image from 10:20 and from 10:30 The image of the camera is related to the second trigger data. The individual image data of the camera is the image of the camera CAM01 from 10:40, and the image of the CAM03 from 10: 00 and 10. In the case of the image from 20 minutes, the image from 10:10 of CAM04, and the image from 10:20 of CAM06 ", when the first trigger is selected as the trigger, the CAM01 The images from 10:00 are combined with the images from 10:20 and the images from 10:30. When triggering the situation that overlaps with other individual image data at the same time, it is to divide the time sequence picture into multiple pictures based on the superimposed camera picture and make one picture or to use time series Simply specify side by side. When the second trigger is selected as the trigger, when there is a plurality of images at the same time and combined, the images of 10:20 of CAM03 and CAM06 are displayed on one screen. And synthesizing the images in a plurality of cameras in a chronological order of shooting. For example, for CAM01, the trigger image of the black circle is connected each day (the number of frames is the same), and it becomes the same image as CAM01_201604151 in the lower left of FIG. 10. CAM01_201604151, after the time when the subject camera image is completely completed, is started from the pickup. In the case of the black circle trigger, the secondary image data completed last is CAM01_1030, so the third image data of the target camera CAM01 is started after 10:30. The completion time becomes unknown. It is the same as the image that links the trigger images of white circles for multiple cameras (the number of frames is the same), and the multiple images of the overlapping cameras are divided into one screen, which becomes like CAM_201604152 general image at the bottom right of Figure 10. [0067] A method for linking a plurality of individual image data, for example, when the individual image data for 10 minutes from 9:20 and the individual image data for 10 minutes from 9:30 and from 9:40 The individual image data of 10 minutes from the minute and the individual image data of 10 minutes from 9:50 are used to create the combined image data from 9:25 to 9:55. The images are linked and then trimmed by deleting the image for 5 minutes from 9:20 and the image for 5 minutes from 9:55. [0068] A method for adjusting the frame interval and the number of frames between the image data to the same number for the image data of a plurality of combinations, when the individual image data at the source is, for example, the cameras of A, B, and C, and the camera of A Once the data is 1 frame for 1 second, the data for camera B is 5 frames for 1 second, and the data for camera C is 10 frames for 1 second, all of them are set to 1 second. In the case of the animation of the five frames, the short frame is used to make up for the shortcomings, and the too many frames are removed. [0069] FIG. 11 is a schematic diagram of a frame number adjustment operation procedure in Embodiment 1 of the animation combining method of this embodiment. A method for adjusting the frame interval and the number of frames between the image data to the same number for the image data of a plurality of combinations. When the individual image data at the source is, for example, cameras A, B, and C, the primary data of the A camera 1 frame for 1 second, 5 frames for 1 second for camera B, and 10 frames for 1 second for camera C, all are set to 1 second and 5 frames In the case of the animation of the frame, the short frame is used to make up for the shortcomings, and the excessive frame is removed. [0070] FIG. 12 is a schematic diagram of a monitoring camera installation condition (a truck delivery example) in the first embodiment of the animation combining method of this embodiment. In the setting example of the surveillance camera shown in FIG. 12, surveillance cameras (T cameras) and door opening / closing sensations are installed at the rear section of the truck and at each collection point. The image of the continuous T camera is sent to the recording server, and when the door is opened, it becomes the measurement data of "ON", and it becomes the time information of "ON". It is stored in the recording server as trigger data. Furthermore, at the A site, the B site, and the C site, which are collection points of a truck, the information of the RF tag embedded in the box of the product and the like is read, and the passage of the location is provided. The RFID reading device for information management, and the surveillance cameras (A to C cameras) of each collection site are connected to the RFID reading devices of each site to add correlation and continuity to each other. The image is sent to the recording server, and the data of the location pass information is sent to the recording server, together with the location pass information, the time information when the location pass information is read It is stored in the recording server as trigger data. It is also possible to detect the entry of trucks to various bases by RFID. [0071] FIG. 13 is a schematic diagram showing secondary image data (a truck delivery example) of a surveillance camera in Embodiment 1 of the animation combining method of this embodiment. At the A site, the truck opened the door to unload the cargo between 9:30 and 9:45, and obtained the location pass information by reading the device. At the B site, the truck was at 11 o'clock. During the period of 20 minutes to 11:40, the door was opened to unload the cargo, and the location passing information was obtained by reading the device. At the C base, the truck locked the door between 15:00 and 15:25. When the cargo is opened and unloaded, and the location passing information is obtained by reading the device, the continuous image data of camera A, camera B, camera C, and camera T are stored in the secondary image data. Continuous image data. At the T camera, the system only lights up when the door is opened, so except for 9: 30-9: 45, 11: 20--11: 40, and 15: 00--15: 25 In addition, it becomes a completely black image. In the example shown in FIG. 12, a camera mounted on a truck is used to capture a conveyor belt device at each site, and a camera from each site is used to capture the unloading status of the truck. [0072] FIG. 14 is a schematic diagram of an animation linking process (a truck delivery example) according to Embodiment 1 of the animation combining method of the present invention. For camera A, camera B, camera C, and camera T, if the trigger data is set to read the information at the location of the RFID reading device, that is, it is set to 9:30 to 9 at the A site. 45 minutes, 11:20 to 11:40 at the B site, 15:00 to 15:25 at the C site, and 9 at the truck door sensor From 30: 9 to 9:45 and 11:20 to 11:40 and 15:00 to 15:25, the trigger data is extracted first and used as individual image data, and 9 points are picked. Images from camera A and camera T from 30 to 9:45, camera B and camera T from 11:20 to 11:40, camera C from 15:00 to 15:25 and camera T The image of the camera is then animated to create the combined image data, and the frame adjustment is performed for all the combined image data and combined into one animation to create the combined image data (that is, the three-dimensional image data) and Make save. [0073] FIG. 15 is a schematic view showing a display screen (an example of delivery of a truck) of the first embodiment of the animation combining method of the present invention, which is matched with the opening and closing of the door of the truck to ensure the image, and is set on the truck RFID to identify the arrival of each base. The camera of the truck (T camera) is combined with the cameras of each base (cameras A, B, and C), and each of them is connected to generate an image. [0074] Combining the image data, the images of the A camera and the T camera from 9:30 to 9:45 and the images of the B camera and the T camera from 11:20 to 11:40 and 15:00 At 15:25, the images of camera C and camera T are combined into one animator, and the images of each site and the truck can be confirmed at the same time in a short time. Even in different time zones, it can be displayed on one screen for all cameras. In addition, when only one camera is used as a target and only triggering actions are combined, for example, it is possible to target a camera installed in a container during delivery of a truck or the like. The images are collected only when the door is open. In this case, by dividing the screen and viewing it all at once, or by combining and linking the first animation without dividing the screen, it is also possible to proceed in the event of customer complaints. To confirm the current situation, or to confirm the operation method of the person who makes the delivery fast. Triggered information depends on the situation and can be set to various configurations such as when the door is opened or closed, or when the image is brightened. If RFID or barcode is installed in the carton, it can also be used to pass through the gate All the time-lapse images are combined. [0075] (Effects) According to this embodiment, it is only necessary to read the necessary part, which can improve the readability at the time of subsequent confirmation. It is possible to play back one or more camera animations at the same time. For example, it can shorten the time from the detection of a problem such as abnormal temperature, confirmation of an entrant, or loss of goods until the cause of the problem is identified. [0076] In more detail, according to this embodiment, it is a simple viewing that is not a unit of time, and a new use of animation can be generated in a new way. For example, based on the batch (carton) unit at the manufacturing site or the delivery timing of the goods in the delivery truck, etc., the visibility at the time of subsequent confirmation can be improved. In addition, it can delete unnecessary video information. Furthermore, by developing software for a unique player, it is also possible to enlarge and display the target animation from detailed three-dimensional image data combined for detailed viewing. [0077] If the animation combining method according to this embodiment is used, only the images with triggers can be collected and viewed at one time, so the visibility can be improved. [0078] Until now, camera images were viewed only when a problem occurred. However, if the surveillance camera system according to this embodiment can be confirmed in a short time, the system can also be checked. Daily inspections are effective in improving business and early detection of suspicious actions. In addition, when it is sufficient to only combine image data (that is, three image data), by deleting not only the primary data of the source but also the secondary image data, the storage capacity can be greatly increased. Deletions. [0079] According to this embodiment, it is possible to reduce the labor required to view a large number of animations when a problem occurs and it takes a long time. In addition, even if multiple simultaneous readings are performed in the service, it will not cause a burden, so it can improve the business. In addition, since the system is to watch a larger amount of the saved animation, the stopping power system is increased. It is also possible to confirm the authenticity of customer complaints and the like at the time of delivery. In addition, as an additional effect caused by this, it can be inferred that false customer complaints against the delivery company will also be reduced. [0080] According to this embodiment, even if the number of frames is reduced with respect to a part of the camera image, it is possible to create three-dimensional image data that is meaningful as a whole. [0081] In addition, this embodiment is not limited to the above-mentioned embodiment, and various modifications can be made without departing from the gist of the embodiment. In addition, the constituent elements of each of the embodiments described above can be arbitrarily combined without departing from the gist of the embodiments. [0082] It is also possible to record a program for implementing each process of the recording server of each embodiment in a computer-readable recording medium as a program product, and the program recorded in the recording medium may be read It enters the recording server and executes it by the processor, thereby performing the above-mentioned various processes related to the recording server of each embodiment. [0083] It can also be implemented as an information processing system in which each processing of the recording server of each embodiment is performed by a plurality of information processing devices. In this case, the information processing system is an information processing system used in a surveillance camera system, and is connected to one or a plurality of cameras and one or a plurality of measuring devices and one or a plurality of measuring devices and one or more through a network. An information processing system connected to a plurality of terminals. This information processing system is provided with a trigger data extraction section for each of various types of measurement data, and selects those that meet the specified conditions from the measurement data obtained by the aforementioned measurement device. The time information of the measurement data is extracted as trigger data; and the individual image data selection section refers to a memory device that memorizes the measurement data type of the aforementioned measurement device and the camera in association with each other, and for each device that is associated with the Each type of measurement data is added to each of the related cameras, and 1 or a plurality of individual image data is selected. The individual image data is a set of individual image data in which a camera image taken by the foregoing camera is animated, and Contains individual image data in the time zone of the time when the aforementioned trigger data is included; and the combined image data creation department is based on the individual image data selected previously, and is required to be plurally linked or not and / or partially deleted Or not, to link and / or partially delete and use them as combined image data; The combined image data creation unit synthesizes the aforementioned combined image data into a single animation as the combined image data.

[0084]

100‧‧‧Recording server

101‧‧‧CPU

102‧‧‧Memory

103‧‧‧Display

104‧‧‧Interface

105‧‧‧ keyboard

106‧‧‧Mouse

110‧‧‧Memory device

112‧‧‧ secondary image folder

113‧‧‧animation link, combination program

114‧‧‧Operating System

116‧‧‧Three image folders

200‧‧‧ mobile terminal

201‧‧‧CPU

202‧‧‧Memory

203‧‧‧Display

210‧‧‧Memory device

213‧‧‧Portrait display program

214‧‧‧operating system

300‧‧‧view PC

301‧‧‧CPU

302‧‧‧Memory

303‧‧‧Display

304‧‧‧Interface

305‧‧‧Keyboard

306‧‧‧Mouse

310‧‧‧Memory device

313‧‧‧Portrait display program

314‧‧‧operating system

400‧‧‧ surveillance camera (for still images)

401‧‧‧ surveillance camera (for animation)

500‧‧‧Internet

600‧‧‧ router

700‧‧‧ measuring device

701‧‧‧CPU

702‧‧‧Memory

703‧‧‧Display

704‧‧‧Interface

710‧‧‧Memory device

713‧‧‧program

714‧‧‧operating system

716‧‧‧ analog sensor

717‧‧‧HTTP service

718‧‧‧D / A conversion

[0004] FIG. 1 is a diagram showing an example of a network configuration of the first embodiment of the surveillance camera system of the present embodiment.图 [Fig. 2] is a block diagram of a recording server of the first embodiment of the surveillance camera system of this embodiment.图 [Fig. 3] is a schematic diagram of a display method (temperature measurement example) in the case of the measurement data of the recording server database and the measuring device in the first embodiment of the surveillance camera system of the present embodiment (temperature measurement example). [Fig. 4] Fig. 4 is a configuration diagram of a measurement device (HTTP connection) in the first embodiment of the surveillance camera system of this embodiment. [Fig. 5] is a configuration diagram of a terminal (mobile terminal) according to the first embodiment of the surveillance camera system of this embodiment. [Fig. 6] is a configuration diagram of a terminal (PC) according to the first embodiment of the surveillance camera system of this embodiment.图 [Fig. 7] This is a schematic diagram of the animation connection method (thermometry measurement example) of Embodiment 1 of the animation combination method of this embodiment.图 [Fig. 8] This is a schematic diagram of a measurement data acquisition process (an example of an automatic door) according to the first embodiment of the animation combining method of this embodiment.图 [Fig. 9] This is a schematic diagram of an animation linking process (an example of an automatic door) in Embodiment 1 of the animation combining method of this embodiment. [Fig. 10] is a schematic diagram of a linking operation procedure of the first embodiment of the animation combining method of this embodiment.图 [Fig. 11] is a schematic diagram of a frame number adjusting operation procedure of the first embodiment of the animation combining method of this embodiment. [Fig. 12] It is a schematic diagram of the installation status of a surveillance camera (a truck delivery example) in Embodiment 1 of the animation combining method of this embodiment. [Fig. 13] is a schematic diagram showing the secondary image data (a truck delivery example) of a surveillance camera in Embodiment 1 of the animation combining method of this embodiment. [Fig. 14] is a schematic diagram of an animation linking process (an example of truck delivery) in Embodiment 1 of the animation combining method of the present invention.图 [Fig. 15] is a schematic diagram of a display screen (an example of truck delivery) in Embodiment 1 of the animation combining method of the present invention.

Claims (7)

An information processing device is an information processing device used in a surveillance camera system, and is an information processing device that is connected to one or a plurality of cameras and one or a plurality of measurement devices for photographing an image via a network. It is characterized by: (i) having a processor, (ii) the aforementioned processor, performing the following steps: (ii) the trigger data extraction step, for each of various types of measurement data, from the measurement data obtained by the aforementioned measurement device, Select those that meet the specified conditions and extract the time information of the measurement data as trigger data; and the individual image data selection steps refer to adding the measurement data type of the aforementioned measurement device to the camera in association with each other for memory Memory device, and for each of the cameras attached to the type of measurement data, 1 or a plurality of individual image data is selected, and the individual image data is for setting the portrait of the camera taken by the aforementioned camera Individual video data in the form of animation, and The individual image data in the time zone of the time when the data was triggered; and the step of combining the image data to create the individual image data selected in the foregoing, in response to the need for plural links and / or the need for partial deletion, To perform linking and / or partial deletion, and use them as combined image data; and the combined image data creation step is to synthesize the aforementioned combined image data into a single animation as the combined image data. The information processing device described in item 1 of the scope of the patent application, wherein: the aforementioned processor is further implemented: the measurement data display image creation step is directed to the camera which is associated with the selected individual image data Among the types of measurement data displayed, the measurement data of the specific time zone is selected and the measurement data display image is created. The aforementioned combined image data creation step is to synthesize the foregoing measurement data display image to the aforementioned combination image. In the data, the combined combined image data is combined into a single animation, which is used as the aforementioned combined image data. The information processing device described in item 1 of the scope of the patent application, wherein: 前述 In the step of generating the combined image data, the processor is configured to simultaneously display the combined image data among the combined image data and display the combined image data. The number of picture frames is adjusted to the same number and the frame interval is adjusted to be the same, and / or the combined image data to be displayed in order is arranged in the display order, and thus the aforementioned combined image data is created. According to the information processing device described in item 1 of the scope of patent application, wherein is further connected to one or a plurality of terminals via a network, the aforementioned processor is further implemented: a sending step is to combine the aforementioned combined image data Send to the aforementioned terminal. An information processing system is an information processing system used in a surveillance camera system, and is an information processing system that is connected to one or a plurality of cameras and one or a plurality of measuring devices through a network. The characteristics are as follows: The trigger data extraction unit is for each of various types of measurement data, and selects those that meet the specified conditions from the measurement data obtained by the aforementioned measurement device, and The time information of the measurement data is extracted as trigger data; and the individual image data selection section refers to a memory device that memorizes the measurement data type of the aforementioned measurement device and the camera in association with each other, and for each of the measured data Each of the related cameras is added to the category, and 1 or a plurality of individual image data is selected. The individual image data is a set of individual image data in which an image of the camera taken by the foregoing camera is animated, and includes Individual image data in the time zone of the moment of the aforementioned triggering data; and The image data creation unit is based on the individual image data selected above, and is linked and / or partially deleted according to the need for plural links and / or the need for partial deletion, and used as a combination respectively. Image data; and a combined image data creation unit, which synthesizes the aforementioned combined image data into a single animation as the combined image data. An information processing method is an information processing method used in a surveillance camera system. The surveillance camera system is provided with one or a plurality of cameras and one or a plurality of measuring devices. 画像 The information processing method has the characteristics In order, the system includes: The trigger data extraction step is for each of various types of measurement data, and from the measurement data obtained by the aforementioned measurement device, a person who meets the specified conditions is selected, and the The time information of the measurement data is extracted as trigger data; and the individual image data selection steps refer to a memory device that memorizes the measurement data type of the aforementioned measurement device and the camera in association with each other, and for each type of measurement data Attach each of the related cameras and select 1 or a plurality of individual image data. The individual image data is the individual image data in which the portrait of the camera photographed by the aforementioned camera is animated and includes the foregoing. Individual image data at the time of triggering the data The step of creating and combining image data is based on the individual image data selected above, and is linked and / or partially deleted in response to the need for multiple links and / or the need for partial deletion, and as separate The combined image data and the combined image data creation step are to synthesize the aforementioned combined image data into one animation as the combined image data. A program product is a program product used in a surveillance camera system. The surveillance camera system is provided with one or a plurality of cameras and one or a plurality of measuring devices. The program product is characterized by: The following steps are performed: The trigger data extraction step is for each of the various types of measurement data, and from the measurement data obtained by the aforementioned measurement device, a person who meets the specified conditions is selected and the measurement is performed. The time information of the data is extracted as trigger data; and the individual image data selection steps refer to a memory device that memorizes the measurement data type of the aforementioned measurement device and the camera in association with each other, and attaches each of the measurement data types to the measurement data type. For each of the connected cameras, one or a plurality of individual image data is selected, and the individual image data is an individual image data in which a camera image taken by the foregoing camera is set as an animation, and the trigger includes the foregoing trigger. Individual image data at the time of the data; and The step of combining the image data is based on the individual image data selected above, and the linking and / or partial deletion is performed in accordance with the need for plural links and / or the need for partial deletion. The use of image data; and the step of creating combined image data are to synthesize the aforementioned combined image data into one animation as the combined image data.