JP2017092826A - Video distribution system and video distribution method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a video distribution system and a video distribution method, which are capable of suppressing an increase of traffic in a wide area network.SOLUTION: A video distribution system 100 comprises: a first video distribution device 10A and a second video distribution device 10B, which can mutually be communicable through a wide area network 200; a camera 11A; and a plurality of terminal devices 12Ba to 12Bc. The first video distribution apparatus 10A acquires video photographed by the camera 11A and distributes the video to the second video distribution device 10B. The second video distribution device 10B comprises: a first reception section 29 for receiving a browsing request of the video from the plurality of terminal devices 12Ba to 12Bc; and a distribution section 22 for distributing the video from the first video distribution device 10A to the plurality of terminal devices 12Ba to 12Bc.SELECTED DRAWING: Figure 1

Description

  The present invention generally relates to a video distribution system and a video distribution method, and more particularly, to a video distribution system and a video distribution method for distributing video captured by a camera.

  Conventionally, a video distribution system that distributes video using a wide area network such as the Internet is known (for example, Patent Document 1).

  The video distribution system described in Patent Document 1 is configured to distribute video (lesson video) in a sports club or the like in response to a browsing request from a user terminal. This video distribution system can also distribute the current lesson video (live video).

JP 2014-4045 A

  By the way, the video delivery system described in Patent Document 1 delivers lesson videos to a plurality of user terminals via a wide area network when there are browsing requests from a plurality of user terminals. Therefore, in this video distribution system, there is a possibility that traffic on the wide area network will increase.

  An object of the present invention is to provide a video distribution system and a video distribution method capable of suppressing an increase in traffic of a wide area network.

  In order to solve the above problems, a video delivery system according to a first aspect of the present invention includes a first video delivery device and a second video delivery device, a camera, and a camera that can communicate with each other via a wide area network. A plurality of terminal devices capable of browsing the captured video, the first video distribution device is connected between the wide area network and the camera, and the second video distribution device is connected to the wide area network. The first video distribution device is connected to the plurality of terminal devices, and the first video distribution device is configured to acquire a video shot by the camera and distribute the video to the second video distribution device. The second video distribution device receives the video browsing request from the plurality of terminal devices, and distributes the video from the first video distribution device to the plurality of terminal devices. Characterized in that it has and.

  The video delivery system according to a second aspect of the present invention is the video delivery system according to the first aspect, wherein the second video delivery device receives the browsing request from the plurality of terminal devices at the receiving unit. The first video distribution device is requested to distribute the video, and the video from the first video distribution device is distributed from the distribution unit to the plurality of terminal devices.

  According to a third aspect of the video delivery system of the present invention, in the first aspect, the second video delivery device acquires the video taken by the camera from the first video delivery device at a predetermined timing. And the second video distribution device receives the video acquired by the acquisition unit from the distribution unit when the reception unit receives the browsing request from the plurality of terminal devices. Distribution to a terminal device.

  A video distribution system according to a fourth aspect of the present invention is the video distribution system according to any one of the first to third aspects, further comprising a recording device that records the video captured by the camera. One video distribution device has a storage unit for storing the video recorded by the recording device.

  A video distribution system according to a fifth aspect of the present invention is the video distribution system according to any one of the first to third aspects, wherein the recording device records the video captured by the camera, and the first video distribution. And a management device for managing the second video distribution device, wherein the management device is connected to the first video distribution device and the second video distribution device via the wide area network, and The one video distribution device is configured to acquire the video recorded by the recording device and distribute the video to the management device, and the management device stores the recorded video from the first video distribution device. It has the accumulation part.

  According to a sixth aspect of the present invention, in the fifth aspect, the video distribution system includes a plurality of the management devices, and the first video distribution device stores a plurality of video data recorded by the recording device. The video data is divided into video data, and each of the plurality of video data is distributed to the plurality of management devices, and each of the plurality of management devices is distributed from the first video distribution device. The video data is configured to be stored in the storage unit.

  A video distribution system according to a seventh aspect of the present invention is the video distribution system according to any one of the first to sixth aspects, wherein the video from the first video distribution device is relayed to the second video distribution device. And a third video distribution device, wherein the third video distribution device is connected to the wide area network.

  A video delivery method according to the present invention includes a first video delivery device and a second video delivery device that can communicate with each other via a wide area network, a camera, and a plurality of terminals that can view videos taken by the camera. The first video distribution device is connected between the wide area network and the camera, and the second video distribution device is connected between the wide area network and the plurality of terminal devices. A video distribution method using the video distribution system, wherein the second video distribution device receives the video browsing request from the plurality of terminal devices; and the first video distribution device receives the video. A process for distributing to the second video distribution apparatus; and a process for causing the second video distribution apparatus to distribute the video from the first video distribution apparatus to the plurality of terminal apparatuses. To.

  According to the first aspect of the present invention, the first video distribution apparatus is connected between the wide area network and the camera, and the second video distribution apparatus is connected between the wide area network and the plurality of terminal apparatuses. Therefore, the first video distribution device and the second video distribution device can communicate one-to-one via the wide area network, and increase in traffic of the wide area network can be suppressed.

  According to the second aspect of the present invention, when there are video browsing requests from a plurality of terminal devices, the second video distribution device makes a video distribution request to the first video distribution device. Since the video distribution device distributes the video captured by the camera to the second video distribution device, it is possible to suppress an increase in traffic of the wide area network.

  According to the third aspect of the present invention, the second video distribution device distributes the video acquired by the acquisition unit to the plurality of terminal devices when there are video browsing requests from the plurality of terminal devices. Therefore, it is possible to suppress the video captured by the camera from being delayed and distributed to the terminal device.

  According to the fourth aspect of the present invention, the video recorded by the recording device (recorded video) can be duplicated and stored in the storage unit of the first video distribution device. A backup of the recorded video can be stored in the storage unit.

  According to the fifth aspect of the present invention, the video recorded by the recording device (recorded video) can be duplicated and stored in the storage unit of the management device, and the recorded video is stored in the storage unit of the management device. Can store backups.

  According to the sixth aspect of the present invention, the video data recorded by the recording device is divided into a plurality of data (video data), and the plurality of video data are respectively stored in a plurality of management devices. And the security of the recorded video can be strengthened.

  According to the seventh aspect of the present invention, for example, even if a communication failure occurs in a wide area network, it is possible to form a detour path as a distribution path for video captured by the camera.

  According to the video distribution method of the present invention, when there is a video viewing request from a plurality of terminal devices, the second video distribution device distributes the video from the first video distribution device to the plurality of terminal devices. Therefore, it is possible to suppress an increase in wide area network traffic.

It is a block diagram of the video delivery system of this embodiment. It is a block diagram of the video delivery apparatus of the video delivery system of this embodiment. It is explanatory drawing of the video delivery apparatus of the video delivery system of this embodiment. It is a flowchart of the usage example of the video delivery system of this embodiment. It is explanatory drawing of the modification of the video delivery system of this embodiment.

  As shown in FIG. 1, the video distribution system 100 according to the present embodiment includes two video distribution apparatuses 10A and 10B, a camera 11A, and a plurality of terminal apparatuses 12Ba to 12Bc. The two video distribution apparatuses 10 </ b> A and 10 </ b> B are configured to be able to communicate with each other via the wide area network 200. Each of the plurality of terminal devices 12Ba to 12Bc is configured so as to be able to view images taken by the camera 11A.

  The video distribution device 10A (first video distribution device) is connected between the wide area network 200 and the camera 11A. The video distribution device 10B (second video distribution device) is connected between the wide area network 200 and the plurality of terminal devices 12Ba to 12Bc.

  The video distribution device 10A is configured to acquire a video shot by the camera 11A. The video distribution device 10A is configured to distribute video to the video distribution device 10B.

  The video distribution device 10 </ b> B includes a first reception unit 29 and a distribution unit 22. The first receiving unit 29 is configured to receive video browsing requests from the plurality of terminal devices 12Ba to 12Bc. The distribution unit 22 is configured to distribute the video from the video distribution device 10A to a plurality of terminal devices 12Ba to 12Bc.

  In the video distribution system 100, the video distribution apparatus 10A is connected between the wide area network 200 and the camera 11A, and the video distribution apparatus 10B is connected between the wide area network 200 and the plurality of terminal apparatuses 12Ba to 12Bc. Yes. Thereby, in the video distribution system 100, the video distribution device 10A and the video distribution device 10B can communicate one-to-one via the wide area network 200. Therefore, in the video distribution system 100, as compared with the video distribution system described in Patent Document 1, it is possible to suppress an increase in traffic of the wide area network 200.

  Hereinafter, the video distribution system 100 of this embodiment will be described in detail with reference to FIGS.

  The video distribution system 100 is used, for example, for station video monitoring. In the present embodiment, the configuration and function of the video distribution system 100 will be described by taking as an example the case of monitoring the state of a person in a station premises (for example, congestion situation) using the wide area network 200.

  As shown in FIG. 1, the video distribution system 100 includes two video distribution apparatuses 10A and 10B, two cameras 11A and 11B, six terminal apparatuses 12Aa to 12Ac, and 12Ba to 12Bc. Recording devices 13A and 13B are provided.

  The wide area network 200 is, for example, a WAN (Wide Area Network). The wide area network 200 is not limited to the WAN, and may be, for example, a dedicated line, a VPN (Virtual Private Network), a carrier network (for example, a 3G line or a 4G line), and the like.

  The two video distribution apparatuses 10A and 10B are installed at two stations (A station and B station), respectively. In the present embodiment, the video distribution device 10 installed at the A station is represented as “video distribution device 10A”, and the video distribution device 10 installed at the B station is represented as “video distribution device 10B”. In the present embodiment, the video distribution device 10A corresponds to both the first video distribution device and the second video distribution device. In the present embodiment, the video distribution device 10B corresponds to both the first video distribution device and the second video distribution device. Note that the video distribution device 10A and the video distribution device 10B have the same configuration and function. In the following description, the video distribution device 10A and the video distribution device 10B are simply described as the “video distribution device 10” unless otherwise distinguished.

  In the A station, one camera 11A, three terminal devices 12Aa to 12Ac, and one recording device 13A are installed. At station B, one camera 11B, three terminal devices 12Ba to 12Bc, and one recording device 13B are installed. Below, when not distinguishing the camera 11A and the camera 11B in particular, it demonstrates as a "camera 11" only. In the following description, the three terminal devices 12Aa to 12Ac and the three terminal devices 12Ba to 12Bc will be simply described as “terminal device 12” unless otherwise distinguished. Further, in the following description, the recording device 13A and the recording device 13B will be simply described as “recording device 13” unless otherwise distinguished.

  The video distribution device 10 is configured to be able to communicate with the camera 11, the terminal device 12, and the recording device 13. Specifically, the video distribution device 10A is connected to the camera 11A, the three terminal devices 12Aa to 12Ac, and the recording device 13A via the first network 300A. The video distribution device 10B is connected to the camera 11B, the three terminal devices 12Ba to 12Bc, and the recording device 13B via the second network 300B. The first network 300A and the second network 300B are, for example, a LAN (Local Area Network). The LAN may be a wired LAN or a wireless LAN. In the following description, the first network 300A and the second network 300B will be simply described as “network 300” unless otherwise distinguished.

  The camera 11 includes an image sensor (imaging device) such as a CCD (Charge Coupled Device) or a CMOS (Complementary Metal Oxide Semiconductor), and is configured to convert a captured image into an electrical signal and output the electrical signal. In this embodiment, the video image | photographed with the camera 11 is a moving image. The moving image includes a pseudo moving image (animation).

  Further, the camera 11 captures the captured video, for example, H.264. H.264 or H.264 The video content is compressed by a codec such as H.265 and output to the video distribution apparatus 10 as video content. In the present embodiment, the camera 11 is not a dedicated camera but a general-purpose IP (Internet Protocol) camera (network camera) having a function of connecting to the network 300 (LAN connection function). The camera 11 may have a built-in microphone.

  The terminal device 12 has a function of connecting to the network 300. Specifically, the terminal device 12 has a Web browser function, and displays (reproduces) the video distributed from the video distribution device 10. The terminal device 12 is, for example, a personal computer (personal computer). Note that the terminal device 12 is not limited to a personal computer, and may be, for example, a smartphone, a tablet terminal, or the like.

  The recording device 13 is configured to record the video taken by the camera 11. The recording device 13 has a function of connecting to the network 300. Specifically, the recording device 13 records video content output from the camera 11 via the network 300. The recording device 13 is, for example, a network disk recorder. In this embodiment, the main purpose is to store the video recorded by the recording device 13 at the station where the recording device 13 is installed (for example, in the case of the recording device 13A, station A).

  The video distribution device 10 includes an image server 14 and a relay server 15.

  As illustrated in FIG. 2, the image server 14 includes an acquisition unit 21, a distribution unit 22, a first reception unit 29, a first control unit 23, and a storage unit 24. The image server 14 is a computer (first computer) having a CPU (Central Processing Unit) and a memory, and by executing a program (first program) stored in the memory, the acquisition unit 21, the distribution unit 22, The functions of the first receiving unit 29 and the first control unit 23 are realized. The first program is a program that causes the first computer to function as the image server 14.

  The acquisition unit 21 is configured to acquire an image captured by the camera 11. Specifically, the acquisition unit 21 acquires video content output from the camera 11 by a streaming method using RTSP (Real Time Streaming Protocol).

  The distribution unit 22 is configured to distribute the video acquired by the acquisition unit 21 to the three terminal devices 12 via the network 300. In the present embodiment, the distribution unit 22 can distribute the video acquired by the acquisition unit 21 to, for example, the three terminal devices 12 in parallel. In other words, the distribution unit 22 can simultaneously distribute the video acquired by the acquisition unit 21 to the three terminal devices 12.

  The distribution unit 22 is configured to distribute the video acquired by the acquisition unit 21 to, for example, three terminal devices 12 at a transmission rate of 512 Kbps (bits per second).

  The first receiving unit 29 is configured to receive requests from the three terminal devices 12 and the relay server 15 (for example, a video browsing request).

  The first control unit 23 is configured to control the acquisition unit 21, the distribution unit 22, and the first reception unit 29. The first control unit 23 is configured to transmit a command (for example, requests from the three terminal devices 12) to the relay server 15.

  The storage unit 24 is configured to store the video recorded by the recording device 13. The storage unit 24 is, for example, a hard disk drive. Here, the acquisition unit 21 is configured to acquire a video (recorded video) recorded by the recording device 13. The accumulation unit 24 can accumulate the video recorded by the recording device 13 by accumulating the recorded video acquired by the acquisition unit 21. That is, the storage unit 24 can duplicate and store the video recorded by the recording device 13 (store a backup of the recorded video).

  As shown in FIG. 2, the relay server 15 includes a relay unit 25 and a second control unit 26. The relay server 15 is a computer (second computer) having a CPU and a memory, and implements the functions of the relay unit 25 and the second control unit 26 by executing a program (second program) stored in the memory. To do. The second program is a program that causes the second computer to function as the relay server 15.

  The relay unit 25 is configured to relay (distribute) the video (including recorded video) acquired by the acquisition unit 21 to another video distribution device 10. The relay unit 25 is configured to relay the video distributed from the other video distribution device 10 to the image server 14. Specifically, the relay unit 25 includes a transmission unit 27 and a second reception unit 28.

  The transmission unit 27 is configured to transmit the video (video data) acquired by the acquisition unit 21 to another video distribution device 10. The second receiving unit 28 is configured to receive a video (video data) distributed from another video distribution device 10. Further, the transmission unit 27 is configured to output the video received by the second reception unit 28 to the image server 14. Here, the acquisition unit 21 is configured to acquire the video transmitted by the transmission unit 27. Thereby, the acquisition unit 21 can acquire a video distributed from another video distribution device 10.

  The second receiving unit 28 is configured to receive a request (for example, a video viewing request) from another video distribution device 10.

  The second control unit 26 is configured to control the relay unit 25 (the transmission unit 27 and the second reception unit 28). Further, the second control unit 26 is configured to transmit a command (for example, a request from another video distribution device 10) to the first control unit 23. Here, the first control unit 23 is configured to receive a command from the second control unit 26.

  Further, the second control unit 26 is configured to receive a command from the first control unit 23.

  Here, an operation in the case where the video taken by the camera 11A is distributed to the three terminal devices 12Aa to 12Ac at the A station will be described with reference to FIG. In the following description, the case of the A station will be described as an example, but the operation in the case where the video captured by the camera 11B is distributed to the three terminal devices 12Ba to 12Bc at the B station is the same.

  The video distribution device 10A acquires a video (captured video) captured by the camera 11A. 10 A of video delivery apparatuses deliver a picked-up image to three terminal device 12Aa-12Ac, when the browsing request | requirement of a picked-up image is received from three terminal device 12Aa-12Ac.

  Next, an operation in a case where an image captured by the camera 11A at the station A is distributed to the three terminal devices 12Ba to 12Bc at the station B via the wide area network 200 will be described with reference to FIG. In this case, the video distribution device 10A installed at the A station corresponds to the “first video distribution device”, and the video distribution device 10B installed at the B station corresponds to the “second video distribution device”. In the following, the operation when the video taken by the camera 11A at the station A is distributed to the three terminal devices 12Ba to 12Bc at the station B will be described. However, the video taken by the camera 11B at the station B is described. The operation in the case of distribution to the three terminal devices 12Aa to 12Ac at the A station is the same. In this case, the video distribution device 10B installed at the B station corresponds to the “first video distribution device”, and the video distribution device 10A installed at the A station corresponds to the “second video distribution device”.

  The video distribution device 10A acquires the video shot by the camera 11A. The video distribution device 10B receives the browse request for the captured video from the three terminal devices 12Ba to 12Bc. The video distribution device 10B requests the video distribution device 10A to distribute the captured video only once when there is a browsing request for the captured video from the three terminal devices 12Ba to 12Bc. The video distribution device 10A distributes the captured video from the camera 11A to the video distribution device 10B when there is a request for distribution of the captured video from the video distribution device 10B. The video distribution device 10B distributes the captured video from the video distribution device 10A to the three terminal devices 12Ba to 12Bc. In the present embodiment, when the video distribution apparatus 10A distributes the captured video to the video distribution apparatus 10B via the wide area network 200, the video distribution apparatus 10A distributes the captured video by unicast communication. In the present embodiment, the video distribution device 10B distributes the captured video to the three terminal devices 12Ba to 12Bc through unicast communication when the captured video is distributed from the video distribution device 10A.

  Describing in detail with reference to FIG. 3, the video distribution device 10B activates a new process (parent process) when there is a browsing request for the captured video from the three terminal devices 12Ba to 12Bc, and the video distribution device 10A. The distribution of the photographed video is requested once. The video distribution device 10A distributes the captured video from the camera 11A to the video distribution device 10B when there is a request for distribution of the captured video from the video distribution device 10B. When the video distribution device 10B acquires the captured video from the video distribution device 10A, for example, a plurality of (three in the illustrated example) processes (child processes) are started, and the three child processes each capture the captured video. Delivered to the three terminal devices 12Ba to 12Bc. That is, the video distribution device 10B distributes the captured video from the video distribution device 10A to the three terminal devices 12Ba to 12Bc. Thereby, in the video distribution system 100, it is possible to suppress an increase in traffic of the wide area network 200 compared to the video distribution system described in Patent Document 1. As a result, the video distribution system 100 can reduce the communication cost compared to the video distribution system described in Patent Document 1. FIG. 3 illustrates the operation when the video distribution device 10B receives browsing requests from the three terminal devices 12Ba to 12Bc at the same time. For example, the video distribution device 10B includes three terminal devices 12Ba to 12B. The operation in the case where there is a browsing request for a captured video from one terminal device (for example, the terminal device 12Ba) out of 12Bc is substantially the same, and the only difference is that the video is shot and delivered to one terminal device 12Ba. To do. In addition, there may be a time difference in browsing requests from the three terminal devices 12Ba to 12Bc. For example, there is a browsing request from the terminal device 12Bb or the terminal device 12Bc after a browsing request from the terminal device 12Ba and while a captured video from the video distribution device 10A is distributed to the terminal device 12Ba. May be. Thereby, in the video distribution system 100, not only when there are browsing requests from the three terminal devices 12Ba to 12Bc at the same time, but also when browsing times from the plurality of terminal devices 12Ba to 12Bc have a time difference. There are advantages. For example, when there is a browsing request from one terminal device (first terminal device 12Ba) among the three terminal devices 12Ba to 12Bc, the video distribution device 10B makes a video distribution request to the video distribution device 10A. And when the video distribution device 10B distributes the video to the terminal device 12Ba, when there are browsing requests from the remaining two terminal devices (second and subsequent terminal devices 12Bb and 12Bc), the video to be distributed to the terminal device 12Ba Can be distributed to the remaining two terminal devices 12Bb and 12Bc, and an increase in traffic on the wide area network can be suppressed.

  The video distribution method of the present embodiment has three processes (first process to third process). The first processing is processing for causing the video distribution device 10B to receive video browsing requests from the plurality of terminal devices 12Ba to 12Bc. The second processing is processing for causing the video distribution device 10A to distribute the video to the video distribution device 10B. The third process is a process for causing the video distribution device 10B to distribute the video from the video distribution device 10A to the plurality of terminal devices 12Ba to 12Bc. Thereby, in the video distribution method of the present embodiment, when there is a video browsing request from the plurality of terminal devices 12Ba to 12Bc, the video distribution device 10B receives the video from the video distribution device 10A. Since it is distributed to ˜12Bc, an increase in traffic of the wide area network 200 can be suppressed.

  As shown in FIG. 1, the video distribution system 100 according to the present embodiment further includes a management device 30. The management device 30 includes a video distribution device 10C and a management server 31. The video distribution device 10C has the same configuration and function as the video distribution device 10A and the video distribution device 10B. In the present embodiment, the management device 30 is installed in a management center that supervises information on each station. In the present embodiment, one terminal device 12C is installed in the management center. The terminal device 12C has the same configuration and function as the terminal devices 12Aa to 12Ac and 12Ba to 12Bc. The terminal device 12C is configured to be able to communicate with the management device 30 via a wired LAN or a wireless LAN.

  The management server 31 is configured to manage the video distribution device 10, the camera 11, the terminal device 12, and the recording device 13. For example, the management server 31 collectively manages information of devices (for example, the video distribution device 10, the camera 11, the terminal device 12, and the recording device 13) installed at each station. The management server 31 is configured to manage the video distribution device 10C and the terminal device 12C. The management server 31 manages information on users who can use the video distribution system 100. That is, in the present embodiment, all information related to the video distribution system 100 is stored in the management server 31.

  The management device 30 is configured to be able to communicate with the video distribution device 10A and the video distribution device 10B via the wide area network 200. Specifically, the management device 30 (specifically, the video distribution device 10C) is connected to the video distribution device 10A and the video distribution device 10B via the wide area network 200.

  Hereinafter, a usage example of the video distribution system 100 of the present embodiment will be described with reference to FIG. In the following, as an example, an operation in a case where a user (station employee) at station B browses an image captured by the camera 11A installed at the station A using the terminal device 12Ba will be described.

  The station staff at station B uses the terminal device 12Ba to input a user ID and password and make a login request to the management server 31 of the management device 30 (step S1).

  The management server 31 performs login authentication (identification of user ID) in accordance with a login request from the terminal device 12Ba (step S2). When the login authentication is successful, the management server 31 creates session information and notifies the video distribution device 10A, the video distribution device 10B, and the terminal device 12Ba of the session information (step S3). As a result, in the video distribution system 100, the video distribution device 10A and the video distribution device 10B can communicate with each other via the wide area network 200. On the other hand, when the login authentication fails, the management server 31 notifies the terminal device 12Ba of the login failure. Note that the session information means, for example, information for identifying a logged-in user, information for capturing a user's action, and the like.

  When the login authentication is successful, the station staff at the B station uses the terminal device 12Ba to make a browsing request for the video (captured video) captured by the camera 11A installed at the A station (step S4).

  The video distribution device 10B requests the video distribution device 10A to distribute the captured video when the terminal device 12Ba has requested browsing of the captured video (step S5). The video distribution device 10A distributes the video imaged by the camera 11 to the video distribution device 10B when there is a distribution request of the captured video from the video distribution device 10B (step S6).

  The storage unit (not shown) of the image server 14C in the video distribution device 10C is configured to store the video recorded by the recording device 13. For example, the video distribution device 10C is configured to acquire a recorded video distributed from the video distribution device 10A. The storage unit of the image server 14C in the video distribution device 10C can store the video recorded by the recording device 13A by storing the recorded video acquired by the acquisition unit (not shown) of the image server 14C. it can. Thereby, in the video distribution system 100, the video recorded by the recording device 13 can be duplicated and stored in the management device 30 (a backup of the recorded video is stored). Further, in the video distribution system 100, videos recorded by the recording device 13 can be collectively managed by the management device 30.

  Incidentally, the video distribution device 10A may be configured to distribute the video recorded by the recording device 13A to the management device 30 during a predetermined time period. As a result, in the video distribution system 100, for example, if the recorded video is distributed in a time zone where communication traffic is free such as at night, a communication error occurs when the video distribution device 10A distributes the recorded video to the management device 30. It is possible to suppress the occurrence.

  When the management device 30 stores the recorded video distributed from the video distribution device 10A in the storage unit of the image server 14C, if the connection with the wide area network 200 is interrupted, the connection with the wide area network 200 is restored. After that, the video that was not distributed at the time of blocking may be configured to be acquired from the video distribution device 10A. As a result, in the video distribution system 100, even if a communication error occurs when the video distribution device 10A distributes the recorded video to the management device 30, the storage unit of the image server 14C stores the video recorded by the recording device 13A. Can be stored in

  The management device 30 may include a plurality of (for example, two) image servers 14C. In this case, the relay server 15 of the video distribution device 10C is configured to be capable of data transmission with a plurality of image servers 14C. Thereby, in the video distribution system 100, the recorded video can be stored in the storage units (not shown) of each of the plurality of image servers 14C, and the recorded video can be stored in the plurality of image servers 14C. It becomes. Further, in the video distribution system 100, the recorded video is stored in the storage unit of each of the plurality of image servers 14C, so that the management device 30 includes a plurality of video distribution devices 10C. It is possible to suppress an increase in traffic.

  As shown in FIG. 5, the video distribution system 100 may include a plurality of (in the illustrated example, three) management devices 30. In this case, the plurality of management devices 30 are installed in a plurality of management centers (management center A, management center B, and management center C), respectively. For example, as shown in FIG. 5, the video distribution device 10A is configured to divide the video data recorded by the recording device 13A into a plurality (three in the illustrated example) of data (video data). Yes. Further, the video distribution device 10A is configured to distribute a plurality of video data to a plurality of management devices 30, respectively. Each of the plurality of management devices 30 is configured to store the video data distributed from the video distribution device 10A in the storage unit of the image server 14C. Thereby, in the video distribution system 100, the video data recorded by the recording device 13A can be divided into a plurality of pieces, and the divided video data can be stored in a plurality of management devices 30, respectively. . Therefore, in the video distribution system 100, it is difficult to restore the video data recorded by the recording device 13A unless all of the video data divided into a plurality of pieces is prepared (unless all video data are combined). . For example, in the video distribution system 100, even if one of the divided video data is stolen, the video data recorded by the recording device 13A cannot be restored. As a result, in the video distribution system 100, it is possible to enhance the security of the video data compared to the case where the video data is stored in one management device 30. Note that “H” in FIG. 5 represents a header. Further, “F” in FIG. 5 represents a footer. In addition, “h” in FIG. 5 represents a hash.

  The video distribution device 10B is configured to distribute the captured video to the three terminal devices 12Ba to 12Bc without changing the transmission speed of the captured video distributed from the video distribution device 10A. Not limited to. The video distribution device 10B may be configured to change the transmission speed of the captured video distributed from the video distribution device 10A. For example, the video distribution device 10B may be configured to change the transmission rate of the captured video distributed from the video distribution device 10A to a transmission rate lower than 512 Kbps (for example, 256 Kbps). Further, the video distribution device 10B may be configured to change the captured video distributed from the video distribution device 10A to a pseudo moving image. As a result, the video distribution system 100 can limit the transmission band of the network 300.

  The video distribution device 10B distributes the captured video from the video distribution device 10A to the three terminal devices 12Ba to 12Bc by unicast communication, but is not limited thereto. The video distribution device 10B may distribute the captured video from the video distribution device 10A to the three terminal devices 12Ba to 12Bc by multicast communication. That is, the video distribution device 10B is configured to convert the captured video from the video distribution device 10A from unicast communication to multicast communication (real-time conversion) and distribute it to the three terminal devices 12Ba to 12Bc. Also good.

  In addition, the video distribution device 10B, for example, before the station staff at the B station uses the terminal device 12Ba to request viewing of the video captured by the camera 11A installed at the A station, for example, for a certain period of time (for example, , Every 30 seconds), an image captured by the camera 11A may be acquired. In other words, the video distribution device 10B may be configured to acquire the video captured by the camera 11A from the video distribution device 10A at a predetermined timing. In this case, when there are browsing requests from the three terminal devices 12, the video distribution device 10B does not request the video distribution device 10A to distribute the captured video, and the captured video acquired from the video distribution device 10A is the target. Delivered to the terminal device 12. Thereby, in the video distribution system 100, for example, when the station staff at the station B uses the terminal device 12Ba to request viewing of the video captured by the camera 11A installed at the station A, the camera 11A immediately uses the terminal 11Ba. The taken video can be distributed to the terminal device 12Ba. That is, in the video distribution system 100, it is possible to suppress the video captured by the camera 11 from being distributed to the terminal device 12Ba with a delay.

  The video distribution system 100 of the present embodiment includes the video distribution device 10A and the video distribution device 10B, but in addition to the video distribution device 10A and the video distribution device 10B, the video distribution device 100A captures the video shot from the video distribution device 10A. A video distribution device (third video distribution device) 10 relaying to 10B may be provided. The third video distribution device 10 is connected to the wide area network 200. The third video distribution device 10 has the same configuration and function as the video distribution device 10A and the video distribution device 10B. The third video distribution device 10 may be, for example, the video distribution device 10C of the management device 30. That is, the video distribution system 100 may include three or more video distribution apparatuses 10.

  When the video distribution system 100 includes three video distribution apparatuses 10, it is preferable that the three video distribution apparatuses 10 are connected by the wide area network 200. When the video distribution system 100 includes four or more video distribution apparatuses 10, it is preferable that the four or more video distribution apparatuses 10 are connected in a mesh type by the wide area network 200. In this case, the video distribution device 10A can distribute the video to the video distribution device 10B via one or more third video distribution devices 10, for example. Thus, in the video distribution system 100, for example, even if a communication failure occurs in the wide area network 200, it is possible to form a detour path as a distribution path for the captured video.

  Note that the video distribution system 100 according to the present embodiment includes the management device 30, but may not include the management device 30. The video distribution system 100 includes the recording device 13 (two recording devices 13A and 13B), but may not include the recording device 13. Further, the image server 14 includes the storage unit 24, but may not include the storage unit 24.

  The video distribution device 10 includes one image server 14, but may include a plurality of image servers 14. Thereby, in the video distribution system 100, it is possible to increase the number of terminal devices 12 that can view the video shot by the camera 11.

  The video distribution device 10 (the image server 14 and the relay server 15) is configured by two computers (first computer and second computer), but may be configured by one computer.

  In the present embodiment, one camera 11 is installed at each station, but a plurality of cameras 11 may be installed. In this case, the acquisition unit 21 is configured to acquire images taken by the plurality of cameras 11 in parallel. Here, the number of cameras 11 that can be acquired by the acquisition unit 21 in parallel is, for example, 200 to 1000.

  The distribution unit 22 is configured to distribute the video acquired by the acquisition unit 21 to the three terminal devices 12 in parallel, but is not limited to this configuration. The distribution unit 22 may be configured to distribute to four or more terminal devices 12 in parallel. Here, the number of terminal devices 12 that can be distributed in parallel by the distribution unit 22 is, for example, 300 to 1000 units.

  In addition, the distribution unit 22 is configured to distribute the video acquired by the acquisition unit 21 to the terminal device 12 at a transmission rate of 512 Kbps, but is not limited to this configuration. The distribution unit 22 may be configured to distribute the video acquired by the acquisition unit 21 to the terminal device 12 at a transmission rate of 300 to 1000 Mbps, for example.

  In this embodiment, three terminal devices 12 and one recording device 13 are installed at each station. However, the number of terminal devices 12 and recording devices 13 is not limited to this number.

  Moreover, although this embodiment demonstrated the case where the video delivery system 100 was used for the video surveillance of a station, it is not restricted to this use. The video distribution system 100 may be used, for example, for video distribution in sports clubs or classes. In other words, the video distribution system 100 can be widely applied to distribution of video captured by the camera 11.

  The video distribution system 100 of the present embodiment described above is merely an example of the present invention, and the present invention is not limited to the above-described embodiment, and the present invention is not limited to this embodiment. Various modifications can be made according to the design or the like as long as they do not depart from the technical idea.

10A video distribution device (first video distribution device)
10B video distribution device (second video distribution device)
11A Camera 12Ba-12Bc Terminal device 13A Recording device 21 Acquisition unit 22 Distribution unit 24 Storage unit 29 First reception unit (reception unit)
30 Management Device 100 Video Distribution System 200 Wide Area Network

Claims (8)

A first video delivery device and a second video delivery device that can communicate with each other via a wide area network, a camera, and a plurality of terminal devices capable of browsing video captured by the camera;
The first video distribution device is connected between the wide area network and the camera;
The second video distribution device is connected between the wide area network and the plurality of terminal devices,
The first video distribution device is configured to acquire a video shot by the camera and distribute the video to the second video distribution device;
The second video distribution device includes a receiving unit that receives the video browsing request from the plurality of terminal devices, and a distribution unit that distributes the video from the first video distribution device to the plurality of terminal devices. A video distribution system characterized by comprising: When the receiving unit receives the browsing request from the plurality of terminal devices, the second video distribution device requests the first video distribution device to distribute the video, and the first video distribution device The video distribution system according to claim 1, wherein the video from is distributed from the distribution unit to the plurality of terminal devices. The second video distribution device has an acquisition unit that acquires the video captured by the camera from the first video distribution device at a predetermined timing.
When the receiving unit receives the browsing request from the plurality of terminal devices, the second video distribution device transmits the video acquired by the acquiring unit from the distribution unit to the plurality of terminal devices. The video distribution system according to claim 1, wherein the video distribution system is distributed. A recording device for recording video captured by the camera;
The video distribution system according to any one of claims 1 to 3, wherein the first video distribution device includes a storage unit that stores the video recorded by the recording device. A recording device for recording video captured by the camera; and a management device for managing the first video distribution device and the second video distribution device,
The management device is connected to the first video delivery device and the second video delivery device via the wide area network,
The first video distribution device is configured to acquire the video recorded by the recording device and distribute it to the management device,
4. The video distribution according to claim 1, wherein the management device includes a storage unit that stores the recorded video from the first video distribution device. 5. system. A plurality of the management devices are provided,
The first video distribution device is configured to divide video data recorded by the recording device into a plurality of video data, and distribute the plurality of video data to the plurality of management devices, respectively. ,
6. The video distribution system according to claim 5, wherein each of the plurality of management devices is configured to store the video data distributed from the first video distribution device in the storage unit. . A third video delivery device that relays the video from the first video delivery device to the second video delivery device;
The video distribution system according to any one of claims 1 to 6, wherein the third video distribution device is connected to the wide area network. A first video delivery device and a second video delivery device that can communicate with each other via a wide area network; a camera; and a plurality of terminal devices capable of viewing video captured by the camera. A delivery device is connected between the wide area network and the camera, and the second video delivery device is a video delivery using a video delivery system connected between the wide area network and the plurality of terminal devices. A method,
Processing for causing the second video distribution device to receive the video browsing request from the plurality of terminal devices;
Processing for causing the first video delivery device to deliver the video to the second video delivery device;
And a process of causing the second video delivery device to deliver the video from the first video delivery device to the plurality of terminal devices.

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