JP6891077B2 - Video distribution system, video distribution server, wireless access point, video transmission device, and video distribution method - Google Patents

Description

The present invention relates to a video distribution system that distributes video to a wireless access point, a video distribution server used therein, a wireless access point, a video transmission device, and a video distribution method.

There is a system that sends and receives video by streaming. For example, Patent Document 1 discloses a system in which an STB (set-top box) wirelessly connects to a wireless router and receives images from the Internet through the wireless router. In the conventional method of delivering video by streaming, a plurality of packets are sequentially transmitted to a plurality of terminals (STB in the case of Patent Document 1) by broadcast communication or multicast communication using UDP (User Datagram Protocol).

Japanese Unexamined Patent Publication No. 2014-78771

In the conventional method as described above, when one video is transmitted to a plurality of terminals, broadcast communication or multicast communication is performed without establishing a connection between each terminal and the distribution server. Therefore, the reliability of the communication is low, and for example, when a communication failure occurs in the middle of the communication path, the retransmission process is not performed, so that the video may be interrupted.

The present invention has been made in view of such circumstances, and a main object thereof is to provide a video distribution system, a video distribution server, a wireless access point, a video transmission device, and a video distribution method capable of solving the above problems. is there.

In order to solve the above-mentioned problems, the video distribution system according to one aspect of the present invention is for a plurality of wireless access points that transmit the request data of the video data and for each wireless access point that transmits the request data. , A video distribution server that transmits the video data in the same time zone by unicast communication, and a display device that displays the video based on the video data received by the wireless access point.

In this embodiment, the video distribution system includes a video transmission device that specifies a wireless access point to which the video data is distributed and has a transmission unit that transmits the video data to the video distribution server, and the wireless access. The point may be to transmit the request data to the video distribution server according to the designation of the distribution destination.

Further, in the above aspect, the video transmission device further has a storage unit for storing identification information for identifying the wireless access point to be the distribution destination, and the recording / transmission unit is an identification stored in the storage unit. The reception request of the video data may be transmitted to the wireless access point identified by the information, and the wireless access point may transmit the request data when the reception request is received.

Further, in the above aspect, the transmission unit transmits the reception request including an access address including the address of the video distribution server and a random character string, and the wireless access point transmits the reception request to the access address. Request data may be sent.

Further, in the above aspect, the video transmission device further has a storage unit for storing identification information for identifying the wireless access point to be the distribution destination, and the video distribution server is stored in the storage unit. The reception request of the video data may be transmitted to the wireless access point identified by the identification information, and the wireless access point may transmit the request data when the reception request is received.

Further, in the above aspect, the video distribution server transmits the reception request including an access address including the address of the video distribution server and a random character string, and the wireless access point sends the reception request to the access address. The request data may be transmitted.

Further, in the above aspect, the storage unit stores the combination of the identification information of the wireless access point to be the distribution destination, and the video transmission device is a display unit that displays the combination stored in the storage unit. , The input unit that accepts the designation as the transmission destination of the reception request of one of the combinations displayed on the display unit may be further provided.

Further, in the above aspect, the video distribution server may be configured by a wireless access point.

Further, in the above aspect, the video distribution server and the wireless access point may be connected by a wired LAN, and the video distribution server may be set not to use the wireless communication function.

Further, in the above aspect, the wireless access point may function as the video distribution server by switching the settings.

Further, in the above aspect, the video distribution system may include a plurality of terminals that perform wireless communication with the wireless access point, and the wireless access point may transmit the received video data to the terminal.

Further, in the above aspect, the video distribution server may continuously transmit packets containing the same data that are a part of the video data to each of the plurality of wireless access points.

Further, the video distribution server of another aspect of the present invention includes a communication unit capable of communicating with a wireless access point, and when request data requesting video data is received from the plurality of wireless access points, the plurality of said. The wireless access point is provided with a control unit that controls the communication unit so that the video data is transmitted in the same time zone by unicast communication.

Further, the wireless access point of another aspect of the present invention transmits the request data to the video distribution server that transmits the video data, and receives the video data by unicast communication from the video distribution server that has received the request data. It includes a communication unit and a video output unit that outputs a video signal to a display device based on the video data received from the video distribution server.

Further, the video transmission device of another aspect of the present invention is a video transmission device that transmits video data to a plurality of wireless access points via a video distribution server capable of data communication, and can communicate with the video distribution server. The video distribution server performs unicast communication to each of the wireless access points according to the request data transmitted from each of the possible communication unit and the plurality of wireless access points designated as the distribution destinations of the video data. In order to transmit the video data in the same time zone, the control unit that controls the communication unit to transmit the video data to the video distribution server is provided.

Further, in the video distribution method of another aspect of the present invention, when each of the plurality of wireless access points transmits the request data of the video data to the video distribution server and the video distribution server receives the request data, the request data When the video data is transmitted to each of the radio access points that have transmitted the above video data in the same time zone by unicast communication and each of the radio access points receives the video data, a plurality of the video data are transmitted based on the video data. Each of the display devices displays an image.

According to the present invention, it is possible to improve the reliability of communication as compared with the conventional case, and it is possible to suppress interruption of video and the like.

The schematic diagram which shows the structure of the video distribution system which concerns on Embodiment 1. FIG. The block diagram which shows the structure of the image transmission apparatus which concerns on Embodiment 1. FIG. Diagram to illustrate the configuration file. The block diagram which shows the structure of the wireless access point which concerns on Embodiment 1. FIG. The block diagram which shows the structure of the video distribution server which concerns on Embodiment 1. FIG. FIG. 1 is a flowchart showing a procedure of video distribution by the video distribution system according to the first embodiment. FIG. 2 is a flowchart showing a procedure of video distribution by the video distribution system according to the first embodiment. FIG. 3 is a flowchart showing a procedure of video distribution by the video distribution system according to the first embodiment. The figure which shows an example of a video distribution screen. A sequence diagram showing the procedure of connection establishment processing. A sequence diagram for explaining the transmission of video data to a plurality of wireless access points in the same time zone. A sequence diagram showing the procedure of connection release processing. The flowchart which shows a part of the procedure of video distribution by the video distribution system which concerns on Embodiment 2.

Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings. It should be noted that each of the embodiments shown below exemplifies a method and an apparatus for embodying the technical idea of the present invention, and the technical idea of the present invention is not limited to the following. Absent. The technical idea of the present invention can be modified in various ways within the technical scope described in the claims.

(Embodiment 1)
In the present embodiment, the video transmission device accepts the designation of the video distribution destination and transmits the video data reception request to each distribution destination. The distribution destination wireless access point requests video data from the video distribution server in response to the reception request, and the video distribution server transmits the video data received from the video transmission device to the distribution destination wireless access point.

[Video distribution system configuration]
FIG. 1 is a schematic diagram showing a configuration of a video distribution system according to the present embodiment. The video distribution system according to the present embodiment is installed in, for example, a public facility such as a school, a company building, a hospital, or a public hall. In this embodiment, an example in which a video distribution system is installed in a school will be described. As shown in FIG. 1, the video distribution system 100 includes a video transmission device 200, a video distribution server 300, a wireless access point 400, a display device 500, and a terminal 600. The wireless access point 400 is installed in each classroom, the principal's room, and the like. The terminal 600 and the video transmission device 200 are tablets, the video transmission device 200 is used by the principal, and the terminal 600 is used by the teacher and each student. The terminal 600 and the video transmission device 200 can perform wireless communication according to the wireless LAN (Local Area Network) standard IEEE802.11a / b / g / n / ac, and the wireless access point 400 can perform wireless communication according to the wireless LAN standard. It is an access point. In each classroom and the principal's room, a wireless LAN 450 is configured by a wireless access point 400. Further, the wireless access point 400 is connected to a wired LAN 460 laid over each classroom, the principal's room, and the like. A video distribution server 300 is connected to the wired LAN 460.

The terminal 600 and the video transmission device 200 may be a laptop personal computer, a smartphone, a mobile phone, or the like, as long as wireless communication by wireless LAN is possible. However, the video transmission device 200 needs to be equipped with a camera and a microphone as described later.

The configuration of the video transmission device 200 will be described. FIG. 2 is a block diagram showing the configuration of the video transmission device 200. The video transmission device 200 includes a wireless communication unit 201, a camera 202, a microphone 203, a display unit 204, an input unit 205, a storage unit 206, and a control unit 207.

The wireless communication unit 201 enables wireless communication by IEEE802.11a / b / g / n / ac, and has an antenna 208 for wireless communication. The camera 202 is a CCD (Charge Coupled Device) image sensor or a CMOS (Complementary Metal Oxide Semiconductor) image sensor. The display unit 204 is composed of an LCD (liquid crystal display) or an organic EL (Electro Luminescence). Further, the input unit 205 is a position input device such as a pressure-sensitive or capacitance type transparent touch pad. The input unit 205 is attached to the surface of the display unit 204, and the display unit 204 and the input unit 205 are configured as an integrated touch panel. The storage unit 206 is a non-volatile storage device such as a flash memory or a hard disk, and stores a video transmission program 210, which is a computer program for video transmission, and a video distribution setting file 220. The control unit 207 includes a CPU 271 and a memory 272, and controls each of the above-described units.

When the CPU 271 executes the video transmission program 210, the tablet functions as the video transmission device 200, and the video transmission device 200 realizes an operation as described later.

FIG. 3 is a diagram for explaining the setting file 220. The setting file 220 is a text file, and is a distribution destination that specifies the server address specification unit 221 that specifies the IP address of the video distribution server and the IP address that is the identification information of the client, that is, the wireless access point 400 that is the distribution destination of the video. Includes addressing unit 222. A declaration unit 223 composed of a character string of [SERVER] is provided in front of the server address specification unit 221, and the declaration unit 223 indicates that the server address specification unit 221 exists immediately after that.

The delivery destination address designation unit 222 includes one or a plurality of delivery destination definition units 224. In the example of FIG. 3, four delivery destination definition units 224a to 224d are included in the delivery destination address designation unit 222. Each distribution destination definition unit 224 indicates an IP address that can be specified in one video distribution, and one distribution destination definition unit 224 indicates one IP address or a group of a plurality of IP addresses. .. Further, a declaration unit 225 is provided immediately before each delivery destination definition unit 224. The declaration unit 225 is composed of an arbitrary character string enclosed in [], and indicates that the delivery destination definition unit 224 exists immediately after that. Explaining with the example of FIG. 3, immediately after the declaration part 225a consisting of the character string of [all first graders], "192.168.1.1", "192.168.1.2", "192.168. The delivery destination definition unit 224a composed of the three IP addresses of "1.3" follows. These three IP addresses are the IP addresses of the wireless access points 400 provided in the classrooms of the three classes of the first graders. Further, after the delivery destination definition section 224a, the delivery destination definition section 224b consisting of the IP address "192.168.1.1" follows immediately after the declaration section 225b consisting of the character string of [1 year 1 set]. There is. This IP address is the IP address of the wireless access point 400 provided in the classroom of the first grader. The delivery destination definition unit 224b is followed by the delivery destination definition unit 224c consisting of the IP address "192.168.1.2" immediately after the declaration unit 225c consisting of the character string of [1 year 2 sets]. This IP address is the IP address of the wireless access point 400 provided in the classroom of two first graders. The delivery destination definition unit 224c is followed by the delivery destination definition unit 224d consisting of the IP address "192.168.1.3" immediately after the declaration unit 225d consisting of the character string of [1 year 3 groups]. This IP address is the IP address of the wireless access point 400 provided in the classroom of four first graders.

Since the terminal 600 has the same configuration as the video transmission device 200 except that the video transmission program 210 and the setting file 220 described above are not stored in the storage unit, the description thereof will be omitted. The terminal 600 may store the video transmission program 210 and the setting file 220 in the storage unit. In this case, if the video transmission program 210 is not executed, the video transmission device 200 does not function, but the terminal 600 functions.

Next, the configurations of the wireless access point 400 and the video distribution server 300 will be described. FIG. 4 is a block diagram showing the configuration of the wireless access point 400, and FIG. 5 is a block diagram showing the configuration of the video distribution server 300. As shown in FIG. 4, the wireless access point 400 includes a wireless communication unit 401, a wired communication unit 402, a control unit 403, a video output unit 404, and an external connection terminal 405.

The wireless communication unit 401 enables wireless communication by IEEE802.11a / b / g / n / ac, and has an antenna 406 for wireless communication. The wired communication unit 402 is an Ethernet communication interface and is connected to the wired LAN 460. The control unit 403 includes a CPU 431 and a memory 432, and controls communication by the wireless communication unit 401 and the wired communication unit 402. The memory 432 stores mode setting information 440 for setting the operation mode of the wireless access point 400. The mode setting information 440 is information for setting any operation mode of the first mode 441 and the second mode 442. The first mode 441 is a normal operation mode that functions as a wireless access point, and the second mode 442 is an operation mode that functions as a video distribution server 300. In the first mode, both the wireless communication function by the wireless communication unit 401 and the wired communication function by the wired communication unit 402 are enabled. On the other hand, in the second mode, the wireless communication function by the wireless communication unit 401 is invalid, that is, it is disabled, and the wired communication function by the wired communication unit 402 is enabled. FIG. 4 shows that the shaded first mode 441 is set and the unshaded second mode 442 is not set.

The video output unit 404 is an HDMI (registered trademark, High-Definition Multimedia Interface) terminal, is connected to the display device 500, and can output a video signal to the display device 500 to display a video. The display device 500 has a large LCD or organic EL panel so that everyone in the class can watch the video.

The external connection terminal 405 is a USB (Universal Serial Bus) terminal. A dongle 700 can be connected to the external connection terminal 405. The first mode 441 is set when the dongle 700 is not connected to the external connection terminal 405, and the second mode 442 is set when the dongle 700 is connected to the external connection terminal 405. As described above, the dongle 700 is a device for switching the setting between the first mode and the second mode.

Further, as shown in FIG. 5, the video distribution server 300 includes a wireless communication unit 301, a wired communication unit 302, a control unit 303, a video output unit 304, an external connection terminal 305, and an antenna 306. Further, the control unit 303 has a CPU 331 and a memory 332. As described above, since the wireless access point 400 functions as the video distribution server 300, the configuration of the video distribution server 300 is the same as the configuration of the wireless access point 400. That is, each of the wireless communication unit 301, the wired communication unit 302, the control unit 303, the video output unit 304, the external connection terminal 305, and the antenna 306 is the wireless communication unit 401, the wired communication unit 402, the control unit 403, and the video output unit. It has the same configuration as each of the 404, the external connection terminal 405, and the antenna 406. A dongle 700 is connected to the external connection terminal 305 of the video distribution server 300. Therefore, in the video distribution server 300, the second mode 442 is set. Further, the display device 500 is not connected to the video output unit 304 of the video distribution server 300.

[Operation of video distribution system]
Next, the operation of the video distribution system 100 according to the present embodiment will be described. In the video distribution system 100 according to the present embodiment, the video distribution server 300 and the wireless access point 400 perform data communication by a wired LAN using TCP (Transmission Control Protocol), which is a connection-type protocol. Through such data communication, the video distribution server 300 distributes video to the wireless access point 400.

FIG. 6 is a flowchart showing a procedure of video distribution by the video distribution system according to the present embodiment. As an example, consider the case where the principal of the principal's office (hereinafter referred to as "user") gives a morning assembly to all the first graders. The user activates the video transmission program 210 of the video transmission device 200. When the video transmission program 210 is executed, the CPU 271 reads the setting file 220 and displays the video distribution screen on the display unit 204 (step S101).

FIG. 7 is a diagram showing an example of a video distribution screen. The video distribution screen 800 includes a video distribution start button 801, a video distribution stop button 802, a microphone mute button 803, and a plurality of distribution destination designation buttons 804. The video distribution start button 801 is used to instruct the start of video distribution, and the video distribution stop button 802 is used to instruct the stop of video distribution. The microphone mute button 803 is used when the audio input from the microphone 203 is interrupted during video distribution. The delivery destination designation button 804 is used when designating a delivery destination before video delivery.

The delivery destination designation button 804 is generated according to the setting file 220. The generation of the delivery destination designation button 804 will be described. The CPU 271 extracts the declaration unit 225 of the setting file 220, and generates the delivery destination designation button 804 by the character string included in the declaration unit 225. In the example of FIG. 3, a declaration unit 225a including the character string of [all 1st graders], a declaration unit 225b including the character string of [1st grade 1 group], and a declaration unit including the character string of [1st grade 2 groups] The setting file 220 includes 225c and a declaration unit 225d including a character string of [1 year 3 sets]. Therefore, the CPU 271 extracts these declaration units 225a to 225d, and delivers four distributions including the character strings of "all 1st graders", "1st grade 1st grade", "1st grade 2nd grade", and "1st grade 3rd grade". Generate the destination designation buttons 804a to 804d. The delivery destination designation button 804 is assigned an IP address shown in the delivery destination definition section 224 following the declaration section 225. That is, the delivery destination designation button 804a including the character string of "all first graders" has the IP addresses "192.168.1.1" and "192.168" shown in the delivery destination definition section 224a immediately after the declaration section 225a. .1.2 "and" 192.168.1.3 "are assigned to the delivery destination specification button 804b containing the character string of" 1 year 1 group ", and the delivery destination definition section immediately after the declaration section 225b. The IP address "192.168.1.1" shown in 224b is assigned. Similarly, the IP address "192.168.1.2" shown in the delivery destination definition section 224c immediately after the declaration section 225c is assigned to the delivery destination specification button 804c containing the character string "1 year 2 sets". The IP address "192.168.1.3" shown in the delivery destination definition section 224d immediately after the declaration section 225d is assigned to the delivery destination specification button 804d including the character string "1 year 3 sets". ing. The user operates the input unit 205 to select the delivery destination designation button 804a when delivering the video to all the first grade classes, and the delivery destination designation button 804b when delivering the video to the first grade group. Is selected, the delivery destination designation button 804c is selected when the video is delivered to the 2 groups in 1 year, and the delivery destination designation button 804d is selected when the video is delivered to the 3 sets in 1 year.

See FIG. 6 again. The CPU 271 accepts the designation of the delivery destination by selecting the delivery destination designation button 804 (step S102). When the distribution destination is specified, the CPU 271 reads the IP addresses of the video distribution server 300 and the wireless access point 400 of the distribution destination from the setting file 220 (step S103).

After designating the distribution destination, the user selects the video distribution start button 801 and gives a video distribution start instruction to the video transmission device 200. When the CPU 271 receives the instruction to start the video distribution (step S104), the CPU 271 activates the camera 202 and starts shooting (step S105). The captured image is displayed on the display unit 204. The CPU 271 randomly generates an address for requesting video data (hereinafter, referred to as an “access address”) (step S106). This access address is in the form of a path to a specific file of the video distribution server 300, and includes an IP address of the video distribution server 300 and a character string of a randomly generated file name. The access address is, for example, "192.168.1.100 / douga / draguiczzj", the first "192.168.1.100" is the IP address of the video distribution server 300, and the last is the IP address of the video distribution server 300. It is a character string in which "addressyuiczzj" is generated. Next, the CPU 271 starts transmitting video data indicating the video displayed on the display unit 204 to the video distribution server 300 (step S107). In response to this, the video distribution server 300 starts receiving video data (step S108). As the video data is transmitted from the video transmission device 200, the above access address is notified to the video distribution server 300. As will be described later, the video distribution server 300 distributes video data using this access address.

Further, the CPU 271 transmits a video reception request to the designated distribution destination IP address (step S109). This receive request includes the above access address. When the CPU 431 of the wireless access point 400 receives the reception request (step S110), it executes a connection establishment process with the video distribution server 300 (step S111).

The connection establishment process will be described in detail. FIG. 8 is a sequence diagram showing the procedure of the connection establishment process. The connection establishment process is a so-called three-way handshake, in which messages are transmitted and received three times. In the connection establishment process, the CPU 431 of the wireless access point 400 first transmits a connection establishment request signal (SYN packet) indicating a connection establishment request to the video distribution server 300 (step S201). When the CPU 331 of the video distribution server 300 receives the connection establishment request signal, it transmits a connection establishment request / response signal (SYNC / ACK packet) indicating a response to the connection establishment request signal and a connection establishment request to the wireless access point 400 (step S202). When the CPU 431 of the wireless access point 400 receives the connection establishment request / response signal, it transmits a response signal (ACK packet) to the connection establishment request to the video distribution server 300 (step S203). As a result, the connection between the video distribution server 300 and the wireless access point 400 is established.

See FIG. 6 again. When the connection with the video distribution server 300 is established, the CPU 431 of the wireless access point 400 transmits the request data requesting the video data to the video distribution server 300 (step S112). The request for the video data is made to the access address, and the video distribution server 300 accepts only the request data for the access address. The access address is automatically generated each time the video is distributed, that is, it changes each time the video is distributed, so that the terminal not specified as the distribution destination cannot request the video data from the video distribution server 300, and the unauthorized terminal cannot request the video data. Access can be blocked. When the CPU 331 of the video distribution server 300 receives the request data (step S113), the CPU 331 starts transmitting the video data received from the video transmission device 200 to the wireless access point 400 (step S114). In response to this, the wireless access point 400 starts receiving video data (step S115). After that, the video data is continuously received by the wireless access point 400.

The CPU 431 of the wireless access point 400 outputs a video signal based on the received video data to the display device 500, and starts video display (step S116). This video is the same as the video displayed on the display unit 204 of the video transmission device 200. That is, video mirroring is performed between the video transmission device 200 and the wireless access point 400. When the user speaks to the camera 202, the voice is input to the microphone 203, and the principal's lecture is filmed. The video of the lecture is distributed to the wireless access point 400 of the distribution destination and displayed on the display device 500. As a result, the teachers and students in the classroom in which the display device 500 is installed can view the video displayed on the display device 500.

In unicast communication using a connection-oriented protocol, an acknowledgment (ACK) is sent each time a packet arrives at a destination, ensuring the reliability of the communication. In the present embodiment, the video data is distributed from the video distribution server 300 to the plurality of wireless access points 400 in the same time zone by the unicast communication (when there are a plurality of distribution destinations). Therefore, highly reliable communication can be performed between the video distribution server 300 and each wireless access point 400. In such unicast communication, when a packet loss or the like occurs in the communication path and the packet does not reach the wireless access point 400, the retransmission process is performed. Therefore, it is possible to suppress the occurrence of video interruptions.

Here, transmission of video data to a plurality of wireless access points 400 will be described. The video transmission device 200 divides the video data into a plurality of data, and transmits a packet containing each data to the video distribution server 300. The video distribution server uses the data contained in the packets received from the video transmission device 200 to generate packets with the destination as the IP address of each wireless access point 400 of the distribution destination, and these packets containing the same data are used for each radio. It is continuously transmitted to the access point 400. By repeating this, a plurality of packets sequentially transmitted from the video transmission device 200 are received by the wireless access point 400, which is the distribution destination of the video data, in the same order, and the video is displayed.

The above packet communication will be specifically described. FIG. 9 is a sequence diagram for explaining transmission of video data to a plurality of wireless access points 400 in the same time zone. _{A packet Pn} is transmitted from the video transmission device 200, and this is received by the video distribution server 300. Video distribution server 300, packet _P n containing the same data as packet _{P n, 1,} generates a _P n, _{2, P n, 3.} Packets P _{n, 1} , P _{n, 2} , P _{n, and 3} are destined for the IP addresses of radio access points 400 that are different from each other. The video distribution server 300 _{continuously transmits packets P n, 1} , P _{n, 2} , P _{n, 3} to each wireless access point 400. Thereafter, the next packet _{P n + 1} of the packet _{P n} is transmitted from the video transmitting apparatus 200 is received by the video distribution server 300. Video distribution server 300, packet _P n _{+ 1, 1} including the same data as the packet _{P n + 1, P n +} 1,2, generates _{P n + 1, 3,} these packets _{P n + 1,1, P n +} 1,2, P n + 1, ₃ is continuously transmitted to each wireless access point 400. That is, before the end of the packet _{P n, 3} generated from the packet _{P n} is reaching the wireless access point 400 of the transmission destination, the last packet _{P n + 1, 1} is the wireless access point 400 that is generated from the next packet _{P n + 1} Will never reach. It is sufficient that packets P _{n, 1} , P _{n, 2} , P _{n, 3} are continuously transmitted, and other packets are inserted between _{packets P n, 1} , P _{n, 2} , P _{n, 3.} It may be transmitted from the video distribution server 300, or another packet may be received by the video distribution server 300. The video data transmitted from the video transmission device 200 in this way is transmitted from the video distribution server 300 to the plurality of wireless access points 400 at the distribution destination in the same time zone. The "same time zone" here means that the time zone in which the video data is transmitted to one wireless access point and the time zone in which the video data is transmitted to the other wireless access point overlap.

The CPU 431 of the wireless access point 400 starts transmitting video data by wireless communication to the terminal 600 in the wireless communication area of the wireless access point 400 (step S117). As a result, the terminal 600 receives the video data and displays the video on the display unit based on the video data. As a result, the video is displayed on each terminal 600, and the teacher and the student can watch the video using the terminal 600. Whether or not the video data can be transmitted to the terminal 600 can be set at the wireless access point 400. When the wireless access point 400 is set not to transmit video data to the terminal 600, the video data is not transmitted from the wireless access point 400 to the terminal 600.

The CPU 271 of the video transmission device 200 periodically transmits an operation confirmation request to the distribution destination wireless access point 400 while transmitting the video (step S118). When the CPU 431 of the wireless access point 400 receives the operation confirmation request (step S119), if the video data can be normally received, the CPU 431 transmits a response to that effect (step S120), and the video transmission device 200 receives this response. (Step S121).

When ending the video distribution, the user operates the input unit 205 to select the video distribution stop button 802 on the video distribution screen 800. As a result, the CPU 271 of the video transmission device 200 is instructed to stop the video distribution. The CPU 271 determines whether or not the instruction to stop the video distribution has been received (step S122). If the video distribution stop instruction is not accepted (NO in step S122), the CPU 271 shifts the process to step S118. On the other hand, when the video distribution stop instruction is received (YES in step S122), the CPU 271 transmits the video data reception stop instruction to the distribution destination wireless access point 400 (step S123). When the wireless access point 400 receives the reception stop instruction (step S124), the CPU 431 stops receiving the video data (step S125), stops displaying the video (step S126), and transmits the video data to the terminal 600. Is stopped (step S127). Further, the wireless access point 400 and the video distribution server 300 execute a connection release process for releasing the connection established between the two (step S128).

The connection opening process will be described in detail. FIG. 10 is a sequence diagram showing a procedure of connection opening processing. In the connection opening process, the message is sent and received four times. In the connection opening process, the CPU 431 of the wireless access point 400 first transmits a transmission end signal (FIN / ACK packet) indicating the end of transmission to the video distribution server 300 (step S301). When the CPU 331 of the video distribution server 300 receives the transmission end signal, it transmits a response signal (ACK packet) to the transmission end signal (step S302). Further, the CPU 331 transmits a transmission end signal (FIN / ACK packet) indicating the end of transmission to the wireless access point 400 (step S303). When the CPU 431 of the wireless access point 400 receives the transmission end signal, it transmits a response signal (ACK packet) to the transmission end signal to the video distribution server 300 (step S304). As a result, the connection between the video distribution server 300 and the wireless access point 400 is opened.

The CPU 271 of the video transmission device 200 stops the transmission of video data (step S129), and also stops the shooting by the camera 202 and the display of the video by the display unit 204 (step S130). This completes the video distribution operation by the video distribution system 100.

(Embodiment 2)
In the present embodiment, the video transmission device accepts the designation of the video distribution destination, and the video distribution server transmits the reception request of the video data to each distribution destination. The distribution destination wireless access point requests video data from the video distribution server in response to the reception request, and the video distribution server transmits the video data received from the video transmission device to the distribution destination wireless access point.

[Video distribution system configuration]
Since the configuration of the video distribution system according to the present embodiment is the same as the configuration of the video distribution system according to the first embodiment, the same components are designated by the same reference numerals and the description thereof will be omitted.

[Operation of video distribution system]
FIG. 11 is a flowchart showing a part of the procedure of video distribution by the video distribution system according to the present embodiment. Since the processes of steps S101 to S108 are the same as those described in the first embodiment, the description thereof will be omitted.

The CPU 271 of the video transmission device 200 transmits the distribution destination information indicating the IP address of the designated distribution destination to the video distribution server (step S401). When the CPU 331 of the video distribution server 300 receives the distribution destination information (step S402), it transmits a video reception request to the IP address of the distribution destination (step S403). This receive request includes an access address. When the wireless access point 400 receives the reception request (step S110), the processes of steps S111 to S130 are executed as in the first embodiment. In FIG. 11, steps S112 and subsequent steps are omitted.

(Other embodiments)
In the above-described first and second embodiments, the configuration in which the video transmission device 200 and the video distribution server 300 are separately provided has been described, but the present invention is not limited thereto. The video distribution server 300 may be provided with a function as a video transmission device 200, and the video transmission device 200 and the video distribution server 300 may be integrated.

Further, in the above-described first and second embodiments, the configuration in which the wireless access point 400 is set to the second mode to function as the video distribution server 300 has been described, but the present invention is not limited to this. A dedicated video distribution server having a configuration different from that of the wireless access point 400 may be provided. Further, the setting of the first mode and the second mode is switched depending on whether or not the dongle 700 is connected, but the present invention is not limited to this. It is also possible to remotely control the wireless access point 400 from an external device (for example, a personal computer, a tablet, etc.) connected to the wireless access point 400 to switch between the first and second mode settings.

Further, in the above-described first and second embodiments, the configuration in which the video distribution server 300 and the wireless access point 400 perform data communication by the wired LAN 460 has been described, but the present invention is not limited to this. A wireless communication unit different from the wireless communication units 301 and 401 is provided in each of the video distribution server 300 and the wireless access point 400, and wireless communication at a frequency different from that of the wireless LAN 450 is provided between the video distribution server 300 and the wireless access point 400. It is also possible to have a configuration in which video data is transmitted and received by performing the video data between them.

Further, in the above-described first and second embodiments, the configuration in which the video transmission device 200 generates an access address has been described, but the present invention is not limited to this. The video distribution server 300 may be configured to generate an access address.

The video distribution system, video distribution server, wireless access point, video transmission device, and video distribution method of the present invention are a video distribution system that distributes video to a plurality of wireless access points, a video distribution server used therein, and a wireless access point. , And as a video transmission device and a video distribution method.

100 Video distribution system 200 Video transmission device 201 Wireless communication unit 202 Camera 206 Storage unit 207 Control unit 210 Video transmission program 220 Setting file 300 Video distribution server 301 Wireless communication unit 302 Wired communication unit 303 Control unit 304 Video output unit 400 Wireless access point 401 Wireless communication unit 402 Wired communication unit 403 Control unit 404 Video output unit 500 Display device 600 Terminal 700 Dongle

Claims (13)

A plurality of wireless access points capable of wireless communication with a terminal and transmitting the requested data of the video data to the video distribution server according to the designation as the distribution destination of the video data in the video transmission device.
A video distribution server that transmits the video data received from the transmission unit of the video transmission device to each wireless access point that has transmitted the request data at the same time zone by unicast communication.
With
The video distribution server continuously transmits packets containing the same data that are a part of the video data to each of the plurality of wireless access points.
The wireless access point transmits on at least one of said display device the image data and the terminal received from the video distribution server,
Video distribution system. The video transmission device further includes a storage unit that stores identification information for identifying the wireless access point to be the distribution destination.
The transmitting unit transmits a reception request for the video data to the wireless access point identified by the identification information stored in the storage unit.
When the wireless access point receives the reception request, the wireless access point transmits the request data.
The video distribution system according to claim 1. The transmitter transmits the receive request including an access address including the address of the video distribution server and a random character string.
The wireless access point transmits the request data to the access address.
The video distribution system according to claim 2. The video transmission device further includes a storage unit that stores identification information for identifying the wireless access point to be the distribution destination.
The video distribution server transmits a reception request for the video data to the wireless access point identified by the identification information stored in the storage unit.
When the wireless access point receives the reception request, the wireless access point transmits the request data.
The video distribution system according to claim 1. The video distribution server transmits the reception request including an access address including the address of the video distribution server and a random character string.
The wireless access point transmits the request data to the access address.
The video distribution system according to claim 4. The storage unit stores the combination of the identification information of the wireless access point to be the distribution destination, and stores the combination of the identification information.
The video transmission device further includes a display unit that displays the combination stored in the storage unit, and an input unit that accepts designation as a transmission destination of one of the reception requests of the combination displayed on the display unit. ,
The video distribution system according to any one of claims 2 to 5. The video distribution server has a configuration similar to that of a wireless access point.
The video distribution system according to any one of claims 1 to 6. The video distribution server and the wireless access point are connected by a wired LAN.
The video distribution server is set not to use the wireless communication function.
The video distribution system according to claim 7. The wireless access point functions as the video distribution server by switching settings.
The video distribution system according to claim 7 or 8. A wireless access point capable of wireless communication with a terminal and a communication unit capable of communicating with a video transmission device,
When receiving the request data for requesting the image data from the plurality of wireless access points in response to the designation as the delivery destination of the video data in the video transmission device, to the plurality of wireless access points, the video transmission It is provided with a control unit that controls the communication unit so that the video data received from the device is transmitted in the same time zone by unicast communication.
The control unit continuously transmits a packet containing the same data that is a part of the video data to each of the plurality of wireless access points.
Video distribution server. Wireless communication with the terminal is possible, the request data of the video data is transmitted to the video distribution server according to the designation as the distribution destination of the video data in the video transmission device, and the video data is received from the video transmission device. a communication unit that receives the image data by unicast communication from said video distribution server, and
And an image output unit that transmits on at least one of the video data display device and the terminal received from the video distribution server,
Wireless access point. A video transmission device that transmits video data to multiple wireless access points capable of wireless communication with terminals via a video distribution server.
A communication unit capable of communicating with the video distribution server,
The video distribution server responds to the request data transmitted from each of the plurality of wireless access points designated as the distribution destination of the video data to the video distribution server in the video transmission device to the respective wireless access points. In order to transmit the video data in the same time zone by unicast communication, a control unit that controls the communication unit to transmit the video data to the video distribution server is provided .
The video distribution server continuously transmits packets containing the same data that are a part of the video data to each of the plurality of wireless access points.
Video transmitter. Each wireless communication plurality of wireless access points capable of terminals, and transmitting in response to the designation as the delivery destination of the video data in the video transmission device, the request data of the video data to the video distribution server,
When the video distribution server receives the request data, the step of transmitting the video data received from the video transmission device to each of the wireless access points that transmitted the request data in the same time zone by unicast communication. And
When each of the wireless access points receives the video data , the step of transmitting the video data to at least one of the display device and the terminal, and
With
In the step of transmitting the video data by unicast communication in the same time zone, packets containing the same data that are a part of the video data are continuously transmitted to each of the plurality of wireless access points.
Video distribution method.

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