JP4617474B2 - Data relay device and data relay system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a data relay system that distributes multicast data.
[0002]
[Prior art]
As a data distribution method using IP (Internet Protocol) communication, unicast (one-to-one communication), broadcast, and multicast (one-to-multipoint communication) are known, but each has advantages and disadvantages. A common distribution method on the Internet or an intranet is unicast. In FIG. 5, the block diagram for outlining unicast is shown. As shown in the figure, in unicast, in response to a transmission request from the client 104, the image distribution server 101 sends out a unicast packet including the IP address of the client 104 in the destination address, and an IP router (packet switching device) ) 102 and 103 transfer the received packet. Therefore, when the image distribution server 101 simultaneously distributes data to N (N: integer greater than or equal to 2) clients, N data streams are generated on the network NW 100, and the network traffic increases when the number N increases. Increases and the load on the image distribution server 101 becomes excessive.
[0003]
On the other hand, in the case of broadcast or multicast, even when data is distributed from the server to N clients, only one data stream is generated on the network in principle. Further, the multicast is different from the broadcast in that the client group of the delivery destination can be arbitrarily set by the delivery data. FIG. 6 shows a configuration diagram for an overview of multicast. As shown in the figure, the image distribution server 101 includes a plurality of clients 104 constituting a client group.₁~ 104_nWhen a packet (multicast packet) including the multicast address assigned to the destination address is transmitted, the multicast router 105 copies a plurality of the same packets, refers to the routing table or the like, and corresponds to the multicast address. Destination (IP router) 105₁~ 105_nForward the packet to. IP router 105₁~ 105_nEach client 104 receives the received packet.₁~ 104_nForward to. Therefore, multicast has an advantage that data can be distributed with high real-time property without compressing the bandwidth of the network NW101.
[0004]
[Problems to be solved by the invention]
However, in order to realize data distribution by multicast, a multicast router or the like having the multicast packet transfer function must be arranged on the network. In addition, it is necessary to periodically manage and update the routing table of the multicast router, which is difficult in a wide area network such as the Internet.
[0005]
  In view of the above circumstances, the present invention intends to solveYuMulticast data distribution even in a network environment where Nicast method and multicast method are mixedTechnology that can beThe point is to provide.
[0006]
[Means for Solving the Problems]
  In order to solve the above-described problem, the invention according to claim 1 is arranged at a relay point between a first network to which an information providing server for transmitting information belongs and a second network to which a plurality of clients belong. A data relay device for transferring data to the other network, having a WWW (World Wide Web) server function, and sending a delivery request for delivery data sent by the information providing server from the client through the second network A WWW transmission / reception unit for receiving, a multicast data transmission unit for generating and transmitting multicast data including a multicast address assigned to multiple points as a destination address,A unicast data transmission unit for generating and transmitting unicast data including a unicast address assigned to one point as a destination address;The distribution data is collected from the information providing server through the first network.Get to getData acquisition unitAndPrepared,When the distribution request is a multicast data distribution request, the distribution data acquisition unit outputs the distribution data acquired from the information providing server to the multicast data transmission unit, and the multicast data transmission unit , When the distribution data output from the distribution data acquisition unit is sent to the second network as the multicast data, and the distribution request is a unicast data distribution request, the distribution data acquisition unit The distribution data acquired from the information providing server is output to the unicast data transmission unit, and the unicast data transmission unit converts the distribution data output from the distribution data acquisition unit to the unicast data To the second network.
[0007]
  The invention according to claim 2 is the data relay device according to claim 1,The data transmission control unit further controls the multicast data transmission unit and the unicast data transmission unit, the data transmission control unit, when the distribution request is a multicast data distribution request, A data acquisition request is made to the distribution data acquisition unit via a multicast data transmission unit, and when the distribution request is a distribution request for unicast data, the distribution via the unicast data transmission unit A data acquisition request is made to the data acquisition unit, and the distribution data acquisition unit acquires the distribution data based on the data acquisition request.
The invention according to claim 3 is the data relay apparatus according to claim 1 or 2, wherein the data relay apparatus is connected to the first network that does not have a multicast data distribution function, and the distribution is performed. When the request is a multicast data distribution request, the distribution data acquisition unit converts the distribution data as unicast data from the information providing server on the first network that does not have a multicast data distribution function. Obtaining the distribution data to the multicast data transmission unit, and the multicast data transmission unit outputs the distribution data output from the distribution data acquisition unit to the second network as the multicast data. Send out.
[0008]
  And claims4The invention according to claim 1To any of 3The data relay device according to claim 1, wherein the WWWSendingThe receiving unit receives the distribution request specified by a URL (Universal Resource Locator).
[0009]
  And claims5The invention according to claim4The data relay device according to claim 1, wherein the WWWSendingThe receiving unit uses HTTP (HyperText Transfer Protocol) as a protocol specified by the URL.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, various embodiments of the present invention will be described.
[0011]
Embodiment 1 FIG.
FIG. 1 is a functional block diagram showing a schematic configuration of a data relay device 1 according to Embodiment 1 of the present invention. As shown in the figure, this data relay apparatus 1 is connected to networks NW1, NW2, and performs WWW transmission / reception that performs IP (Internet Protocol) communication with clients UT1, MT1,... On network NW1 according to a predetermined communication protocol group. Unit 2, a multicast data transmission unit 3 that generates and transmits multicast packets, a unicast data transmission unit 4 that generates and transmits unicast packets, and these multicast data transmission unit 3 and unicast data A data transmission control unit 5 that controls the transmission unit 4 is provided. Further, the data relay device 1 acquires distribution data such as video data and audio data from the information providing server 10 on the network NW 2 and outputs the distribution data to the multicast / data transmission unit 3 and the unicast / data transmission unit 4. Part 6 is provided. The clients MT1,..., UT1,... Only need to be communication devices capable of bidirectional IP communication with the data relay device 1. For example, a network-compatible personal computer or set top box (home communication terminal), It may be a mobile phone, a PHS (Personal Handyphone System), or a PDA (personal digital assistant). Examples of the networks NW1 and NW2 include the Internet, an intranet, and a VPN (virtual private network).
[0012]
The WWW transmission / reception unit 2 can perform IP communication with the clients MT1, UT1,... Via the network NW1 according to TCP / IP (Transmission Control Protocol / Internet Protocol) or the like. In the first embodiment, the WWW transmission / reception unit 2 functions as a WWW server using HTTP (HyperText Transfer Protocol), which is a kind of TCP / IP, so that a client user on the network NW1 can use an embedded WWW browser. , Etc., and connect to the WWW transceiver 2 to download web pages written in languages such as HTML (Hyper Text Markup Language) and XML (eXtensible Markup Language) and browse images, You can send text data and voice data.
[0013]
The network NW1 includes one or a plurality of nodes 8 having a function of transferring a multicast packet including addresses assigned to multipoint clients MT1, MT2,... As destination addresses. In IPv4 (Internet Protocol version 4), the multicast standard is described in RFC (Request For Comments) 1112 of IETF (Internet Engineering Task Force) and the like, and an IP address of an address system called class D is used. In the class D address system, the first 4 bits of the IP address are identified as multicast, and a specific multicast group is specified in the remaining 28 bits. In the first embodiment, a 32-bit address according to IPv4 (Internet Protocol version 4) is used, but a 128-bit address according to IPv6 (Internet Protocol version 6) may be used instead.
[0014]
On the other hand, in the network NW2, there is no node that forwards the multicast packet, and there is a node (not shown) that can forward only a unicast packet including the address assigned to the client at one point as a destination address. ing. Accordingly, the information providing servers 10, 10,... On the network NW 1 unicast data distribution data such as video data captured by the imaging device 11 and audio data acquired by the microphone 13 in response to a data distribution request. Can be sent in the form of
[0015]
The multicast data transmission unit 3 refers to a routing table stored in the table storage unit 7 or a group table in which a multicast group ID is described according to control by a data transmission control unit 5 described later, After the unicast data is converted into a multicast packet including the multicast group ID in the header portion, it is sent to the network NW1 using UDP (User Datagram Protocol) or the like. The sent multicast packet is simultaneously distributed to a plurality of clients MT1, MT2,..., MTn belonging to the client group (multicast group) G1 via the node 8 such as a multicast router on the network NW1. The The unicast data transmission unit 4 sends the distribution data transferred from the distribution data acquisition unit 6 to the network NW1 as unicast data in accordance with control by a data transmission control unit 5 described later.
[0016]
As shown in FIG. 1, the data transmission control unit 5 that controls the multicast data transmission unit 3 and the unicast data transmission unit 4 includes a multicast control means 5A that performs multicast packet distribution control, Unicast control means 5B for performing data distribution control.
[0017]
In the first embodiment, one feature is that the distribution request UL # 1 (or UL # 2) from the client is processed using a URL (Universal Resource Locator) indicating the location of the information resource on the IP network. . The distribution request UL # 1 is “protocol name: // IP address # 1 / object name? REMOTE = IP address # 2 / command” or “protocol name: // host name (logical name) # 1 / object. Name? REMOTE = host name (logical name) # 2 / command " Here, “host name (logical name) # 1” and “host name (logical name) # 2” correspond to “IP address # 1” and “IP address # 2”, respectively. “1” indicates the network address of the data relay apparatus 1, and “IP address # 2” indicates the network address of the information providing server 10. Examples of the “protocol name” include “http” based on HTTP, “telnet” based on TELNET (TELecommunication NETwork) defined by RFC 854, and the first embodiment adopts HTTP.
[0018]
When the WWW transmission / reception unit 2 receives a distribution request UL # 1 or UL # 2 of “http: // IP address # 1 / object name? REMOTE = IP address # 2 / command” from the client MT1 or UT1, The distribution request is transferred to the data transmission control unit 5. The data transmission control unit 5 activates either the multicast control unit 5A or the unicast control unit 5B associated with the “object name” in the URL.
[0019]
When the multicast control means 5A is activated, the multicast control means 5A extracts “IP address # 2 / command” from the URL. The multicast control means 5A uses the “IP address # 2 / command” to generate “http: // IP address # 2 / command” and outputs it as a distribution request MRQT to the multicast data transmission unit 3 to transmit multicast data. Unit 3 outputs the distribution request MRQT to distribution data acquisition unit 6. Next, the distribution data acquisition unit 6 accesses the information providing server 10 on the network NW2 using the distribution request MRQT = “http: // IP address # 2 / command” by HTTP, and distributes data corresponding to the command. If the distribution data can be transmitted, the distribution data is received. At this time, the client MT1 that has issued the distribution request UL # 1 acquires network information such as a multicast address and a port number from the data transmission control unit 5 through the WWW transmission / reception unit 2.
[0020]
On the other hand, when the unicast control means 5B is activated, the unicast control means 5B extracts "IP address # 2 / command" from the URL. The unicast control means 5B generates “http: // IP address # 2 / command” using the “IP address # 2 / command” and outputs it as a distribution request URQT to the unicast / data transmission unit 4 for unicasting. The data transmission unit 4 outputs the distribution request URQT to the distribution data acquisition unit 6 as a data acquisition request. Next, the distribution data acquisition unit 6 uses the distribution request URQT = “http: // IP address # 2 / command” to access the information providing server 10 on the network NW2, and distributes data corresponding to the command. If the distribution data can be transmitted, the distribution data is received.
[0021]
The distribution data acquisition unit 6 outputs the distribution data acquired from the information providing server 10 to the data storage unit 9 and accumulates it for a predetermined period. When the distribution data acquisition unit 6 receives an acquisition request for distribution data already acquired and stored in the data storage unit 9 from the multicast data transmission unit 3 or the unicast data transmission unit 4, the information provision server 10 The distribution data stored in the data storage unit 9 is read out without being accessed, and is output to the multicast data transmission unit 3 or the unicast data transmission unit 4.
[0022]
In the first embodiment, the WWW transmission / reception unit 2, the multicast / data transmission unit 3, the unicast / data transmission unit 4, the data transmission control unit 5 and the distribution data acquisition unit 6 are included in a single communication device. Although it is incorporated in the form of software or hardware, the present invention is not limited to this, and it may be incorporated into a plurality of communication devices to perform distributed operations.
[0023]
The operation of the data relay apparatus 1 having the above configuration will be described in detail below. For convenience of explanation, it is assumed that the data relay device 1 is assigned an IP address “192.168.0.100” and the information providing server 10 is assigned an IP address “192.168.0.1”.
[0024]
An example of multicast data distribution processing will be specifically described with reference to the flowchart of FIG. 2. In step S1, the WWW transmission / reception unit 2 of the data relay apparatus 1 sends a multicast data distribution request from the client MT1 on the network NW1. UL # 1 is received. Specifically, the web page provided by the WWW transmission / reception unit 2 is downloaded by the user of the client MT1 starting and operating a WWW browser. Next, when the user selects a predetermined item displayed on the web page, the delivery request UL # 1 = "http://192.168.0.100/scripts/iviewmlt.dll?REMOTE=//192.168.0.1" / movie "is transmitted to the WWW transmission / reception unit 2 of the data relay apparatus 1.
[0025]
In the next step S2, the data transmission control unit 5 identifies the object name “scripts / iviewmlt.dll” designated by the distribution request UL # 1, and activates the multicast control means 5A associated with this object name. The multicast control means 5A generates “http://192.168.0.1/movie” from the distribution request UL # 1 and outputs it as a distribution request MRQT to the multicast data transmission unit 3. In the next step S3, the multicast data transmitting unit 3 outputs the distribution request MRQT as a data acquisition request to the distribution data acquiring unit 6. Then, the distribution data acquisition unit 6 accesses the information providing server 10 using the distribution request MRQT = “http://192.168.0.1/movie”, and passes the command “movie” to the information providing server 10 to capture an image. It requests transmission of distribution data such as image data captured by the device 11 and image data stored in the content storage unit 12.
[0026]
In the next step S4, the distribution data acquisition unit 6 determines whether or not there is a response to the transmission request within a predetermined time from the information providing server 10, and if there is a response, the process proceeds to the next step S5. The network information is notified to the client MT1 via the WWW transmission / reception unit 2. On the other hand, if there is no response, the distribution data acquisition unit 6 notifies the client MT1 through the WWW transmission / reception unit 2 that there is no response in the error processing of step S6, and the above multicast data distribution processing ends. .
[0027]
In step S7 after step S5, the distribution data acquisition unit 6 acquires distribution data (unicast data) from the information providing server 10 and transfers it to the multicast data transmission unit 3, and in the subsequent step S8, multicast data The transmission unit 3 refers to the table storage unit 7 to acquire a multicast group ID and the like, generates a multicast packet having a multicast address including the header as a destination address, and transmits the multicast packet to the network NW1. Thereby, the distribution data provided by the information providing server 10 can be broadcast to a plurality of clients MT1, MT2,..., MTn on the network NW1.
[0028]
Note that a step (not shown) for determining whether or not the distribution data corresponding to the distribution request MRQT is stored in the data storage unit 9 in the distribution data acquisition unit 6 immediately after the step S3 is inserted. Good. That is, when the distribution data is stored in the data storage unit 9, the distribution data acquisition unit 6 reads the distribution data from the data storage unit 9 and outputs it to the multicast data transmission unit 3. Therefore, a multicast packet is generated and sent to the network NW1 as in step S8. On the other hand, if the distribution data is not stored in the data storage unit 9, the process proceeds to step S4. As a result, traffic between the data relay device 1 and the information providing server 10 is reduced, and an improvement in data transmission speed can be expected.
[0029]
Next, an example of unicast data distribution processing will be specifically described with reference to the flowchart of FIG. First, in step S10, the WWW transmission / reception unit 2 of the data relay device 1 sends a unicast data distribution request UL # 2 = “http://192.168.0.100/scripts/iviewisa.dll?REMOTE” from the client UT1 on the network NW1. = // 192.168.0.1/movie "is received. The specific procedure is the same as that in step S1. In the next step S11, the data transmission control unit 5 identifies the object name “scripts / iviewisa.dll” specified in the distribution request UL # 2, and starts up the unicast control means 5B associated with this object name. The unicast control means 5B generates “http://192.168.0.1/movie” from the distribution request UL # 2 and outputs it to the unicast / data transmission unit 4 as a distribution request URQT. In the next step S12, the unicast / data transmission unit 4 outputs the distribution request URQT to the distribution data acquisition unit 6 as a data acquisition request. Then, the distribution data acquisition unit 6 accesses the information providing server 10 using the distribution request URQT = “http://192.168.0.1/movie” and provides the command “movie” in the same manner as in step S3. The distribution data is requested to be transmitted to the server 10.
[0030]
In the next step S13, the distribution data acquisition unit 6 determines whether or not there is a response to the transmission request within a predetermined time from the information providing server 10, and if there is a response, the process proceeds to the next step S14. The network information is notified to the client MT1 via the WWW transmission / reception unit 2. On the other hand, if there is no response, the distribution data acquisition unit 6 notifies the client MT1 through the WWW transmission / reception unit 2 in the error processing of step S15, and the above unicast data distribution processing is completed. To do.
[0031]
In step S16 after step S14, the distribution data acquisition unit 6 acquires distribution data (unicast data) from the information providing server 10 and transfers it to the unicast data transmission unit 4, and then in step S17, the unicast data is transmitted. The data transmission unit 4 generates and sends a unicast packet with the IP address of the client UT1 as the destination address. At this time, when the distribution data is a still image, the unicast data transmission unit 4 performs JPEG (Joint Photographic Experts Group) compression, TIFF (Tag Image File Format) compression, and the like on the distribution data. Packets can be generated.
[0032]
Note that a step (not shown) for determining whether or not the distribution data corresponding to the distribution request URQT is stored in the data storage unit 9 by the distribution data acquisition unit 6 immediately after the step S12 is inserted. Good. That is, when the distribution data is stored in the data storage unit 9, the distribution data acquisition unit 6 reads the distribution data from the data storage unit 9 and outputs it to the unicast data transmission unit 4. Therefore, a unicast packet is generated and sent to the network NW1 in the same manner as in step S17. On the other hand, if the distribution data is not stored in the data storage unit 9, the process proceeds to step S13.
[0033]
As described above, according to the data relay apparatus 1 according to the first embodiment, the information distributed by the information providing server 10 on the network NW2 that does not have the multicast packet distribution function is converted into the multicast packet to convert the network NW1. Can be delivered on top. In addition, even if the information providing server 10 is connected to the network NW2 through a line whose communication speed is low because the communication band is narrow, the data relay device 1 is interposed between the client and the information providing server 10, so that the network An increase in the traffic of the NW 2 is suppressed, and an advantage that access concentration to the information providing server 10 can be avoided is obtained. Further, since the multicast control means 5A and the unicast control means 5B are activated by the delivery request UL # 1 and UL # 2 by URL designation, the client user can select the information providing server and the kind of delivery data through the web page. It can be easily selected and desired distribution data can be acquired.
[0034]
Embodiment 2. FIG.
Next, a second embodiment of the present invention will be described. FIG. 4 is a functional block diagram showing a schematic configuration of the data relay system 20 according to the second embodiment of the present invention. The data relay system 20 includes a first relay device 1A and a second relay device 1B having substantially the same configuration as the data relay device 1 according to the first embodiment. The first relay device 1A and the second relay device 1B are connected to each other via a network NW2. In FIG. 4, blocks having the same reference numerals as those shown in FIG. 1 have substantially the same functions as those described above, and will not be described in detail.
[0035]
An example of multicast data distribution processing by the data relay system 20 will be described below. For convenience of explanation, the first relay device 1A is given an IP address “192.168.1.100”, the second relay device 1B is given an IP address “192.168.0.100”, and the information providing server 10 has an IP address “192.168.0.1”. Is assumed to be granted.
[0036]
First, the distribution request UL # 1 = “http://192.168.1.100/scripts/iviewmlt.dll?REMOTE=//192.168.0.100/scripts/ is sent from the client MT1 on the network NW1 in the same procedure as in step S1. iviewisa.dll // 192.168.0.1 / movie "is transmitted to the WWW transmission / reception unit 2 of the first relay apparatus 1A. Next, the data transmission control unit 5 identifies the object name “scripts / iviewmlt.dll” specified by the distribution request UL # 1 and starts the multicast control means 5A in the same procedure as in step S2. The multicast control means 5A uses "//192.168.0.100/scripts/iviewisa.dll" and "//192.168.0.1/imovie" extracted from the distribution request UL # 1 to "http://192.168.0.100 /scripts/iviewisa.dll?REMOTE=//192.168.0.1/movie "is generated and output as a distribution request MRQT to the multicast data transmission unit 3, the multicast data transmission unit 3 sends the distribution request MRQT to the data It outputs to the distribution data acquisition part 6 as an acquisition request.
[0037]
Next, the delivery data acquisition unit 6 uses the delivery request MRQT = “http://192.168.0.100/scripts/iviewisa.dll?REMOTE=//192.168.0.1/movie” by HTTP to use the second relay device 1B. The WWW transmission / reception unit 2 is accessed. The data transmission control unit 5 of the second relay apparatus 1B identifies the object name “scripts / iviewisa.dll” specified by the distribution request MRQT and activates the unicast control means 5B in the same procedure as in step S11. To do. Then, the unicast control means 5B generates “http://192.168.0.1/movie” using the extracted “//192.168.0.1/movie” and sends it to the unicast / data transmission unit 4 as a distribution request URQT. When output, the unicast data transmission unit 4 outputs the distribution request URQT to the distribution data acquisition unit 6 as a data acquisition request.
[0038]
Next, the distribution data acquisition unit 6 of the second relay device 1B uses the distribution request URQT = “http://192.168.0.1/movie” in the same procedure as the above step S12, and the information providing server 10 on the network NW3. And the command “movie” is passed to the information providing server 10 to request transmission of distribution data. Next, processing similar to that in steps S13 to S16 is performed. That is, when the distribution data acquisition unit 6 of the second relay apparatus 1B acquires the distribution data from the information providing server 10, it transfers it to the unicast data transmission unit 4. The unicast data transmission unit 4 converts the transferred distribution data into a unicast packet and sends it to the distribution data acquisition unit 6 of the first relay device 1A.
[0039]
Next, the distribution data acquisition unit 6 of the first relay apparatus 1A transfers the received distribution data (unicast packet) to the multicast data transmission unit 3, and then the multicast data transmission unit 3 transmits the transferred distribution data. Based on this, the multicast packet is generated and sent to the network NW1. Thereby, the distribution data provided by the information providing server 10 on the network NW3 can be broadcast to a plurality of clients MT1, MT2,..., MTn on the network NW1.
[0040]
According to the data relay system 20 described above, since the first and second relay systems 1A and 1B have both unicast and multicast distribution functions, both are arranged between a plurality of networks. Even in a hybrid network environment where multiple distribution methods are mixed, a network system capable of distributing data by multicast can be easily constructed.
[0041]
【The invention's effect】
  As described above, the present inventionAccording to the above, even in a network environment in which the unicast method and the multicast method are mixed, it is possible to distribute data by multicast.
[0042]
In particular, according to the third aspect of the present invention, the distribution data is fetched from the information providing server on the first network that does not have the multicast data distribution function, and the distribution data is set as the multicast data in the second Can be delivered to the network.
[0043]
  AlsoIn particular,Claim4And claims5InIn the invention describedAccording to this, the user of the client can make the delivery request more easily through a web page or the like.
[0044]
  AlsoIn particular,Claim6According to the data relay system according to the above, it is possible to easily construct a network system capable of distributing data by multicast even in a hybrid network environment in which a unicast method and a multicast method are mixed.
[Brief description of the drawings]
FIG. 1 is a functional block diagram showing a schematic configuration of a data relay system according to a first embodiment of the present invention.
FIG. 2 is a flowchart showing a processing example of the data relay system according to the first embodiment.
FIG. 3 is a flowchart showing a processing example of the data relay system according to the first embodiment.
FIG. 4 is a functional block diagram showing a schematic configuration of a data relay system according to a second embodiment of the present invention.
FIG. 5 is a configuration diagram outlining unicast.
FIG. 6 is a configuration diagram outlining multicast.
[Explanation of symbols]
1 Data relay device
2 WWW transceiver
3 Multicast data transmitter
4 Unicast data transmitter
5 Data transmission controller
6 Distribution data acquisition unit
7 Table storage
10 Information provision server
20 Data relay system

Claims (6)

A data relay device that is arranged at a relay point between a first network to which an information providing server for transmitting information belongs and a second network to which a plurality of clients belong, and performs data transfer from one network to the other network. ,
A WWW transmission / reception unit that has a WWW (World Wide Web) server function and receives a distribution request for distribution data transmitted by the information providing server from the client through the second network;
A multicast data transmission unit that generates and transmits multicast data including a multicast address assigned to multiple points as a destination address;
A unicast data transmission unit that generates and transmits unicast data including a unicast address assigned to one point as a destination address;
A delivery data acquisition unit from the front SL information providing server acquire the distribution data through the first network,
With
When the distribution request is a multicast data distribution request, the distribution data acquisition unit outputs the distribution data acquired from the information providing server to the multicast data transmission unit,
The multicast data transmission unit sends the distribution data output from the distribution data acquisition unit to the second network as the multicast data;
If the distribution request is a unicast data distribution request, the distribution data acquisition unit outputs the distribution data acquired from the information providing server to the unicast data transmission unit,
The unicast data transmission unit is a data relay device that transmits the distribution data output from the distribution data acquisition unit to the second network as the unicast data. The data relay device according to claim 1,
A data transmission control unit for controlling the multicast data transmission unit and the unicast data transmission unit;
If the distribution request is a multicast data distribution request, the data transmission control unit makes a data acquisition request to the distribution data acquisition unit via the multicast data transmission unit, and the distribution request is If it is a cast data delivery request, make a data acquisition request to the delivery data acquisition unit via the unicast data transmission unit,
The distribution data acquisition unit is a data relay device that acquires the distribution data based on the data acquisition request. The data relay device according to claim 1 or 2,
The data relay device is connected to the first network that does not have a multicast data distribution function,
When the distribution request is a multicast data distribution request, the distribution data acquisition unit unicasts the distribution data from the information providing server on the first network that does not have a multicast data distribution function. Obtained as data, and output the distribution data to the multicast data transmission unit,
The multicast data transmission unit is a data relay device that transmits the distribution data output from the distribution data acquisition unit to the second network as the multicast data.   4. The data relay apparatus according to claim 1, wherein the WWW transmission / reception unit receives the distribution request specified by a URL (Universal Resource Locator).   5. The data relay device according to claim 4, wherein the WWW transceiver unit uses HTTP (HyperText Transfer Protocol) as a protocol specified by the URL.   A data relay system in which the data relay device according to any one of claims 1 to 5 is arranged at a plurality of relay points between networks.

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