JP2005123801A - Multi-node communication system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a multi-node communication system capable of easily building up 1: multi (N) remote lecture type communication and considerably relieving the load of a center server when building up the communication. <P>SOLUTION: Transmission reception side nodes 2, 3 directly carry out P2P communication and the transmission side node 2 registers a program for carrying out the 1: multi remote lecture type communication to a program management server (center server 1), the program is broadcast to the one or more receiver side nodes 3 authenticated by the center server 1 via a transmitter side gateway 4 and the Internet 8 so that the center server 1 carries out user management and program management only and the transmission reception side nodes 2, 3 directly make P2P communication with each other. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention is a multi-node communication system that realizes peer-to-peer (P2P) communication via the Internet network, and in particular, connects a plurality of remote nodes via the Internet network. The present invention relates to a multi-node communication system suitable for use in conferences.

  Conventionally, in a multi-node communication service, each node is connected to a user management center server, and each node conducts a communication conference via the center server. However, in this case, it is necessary to handle a large amount of data such as user management, communication management, video, and audio at the center. For this reason, as the number of connected users increases, the load on the center server increases. In addition, even in a 1: multi-distance lecture communication model, the same system is required to realize interactive communication communication such as questions and so on, and the burden on the center server increases as the number of connected users increases.

On the other hand, in recent years, a new concept of “brokerless search model” has been devised. This brokerless search model is a P2P communication that has been gaining attention around the world, such as Gnutella, which was announced in March 2000, and allows direct communication between nodes without going through a center server (procerer). It can be carried out. However, since the P2P communication is performed directly between the nodes, the center server cannot grasp the individual communication status, and therefore cannot perform an appropriate billing process. Patent Document 1 is known as a known technique of P2P communication.
JP 2003-114857 A

  As described above, conventionally, when performing multiple synchronous communication using P2P communication to perform a conference or the like, the user has communicated by connecting his / her node to the center server. It is necessary to build a large-scale center server that transmits / receives data such as communication management, video, and audio to each user. When the number of connected users increases, the burden on the center server increases and a large-capacity center server is built. There was a need to do. In addition, even in a 1: multi-distance lecture communication model, it is necessary to construct a similar system in order to realize two-way communication communication such as questions, and there is a problem associated with an increase in the number of connected users as described above.

  The present invention has been made in view of the above circumstances. The client performs P2P communication in which only user management and program management are performed by the center server, and direct communication between nodes is performed. It is an object of the present invention to provide a multi-node communication system in which the load on the center server can be greatly reduced. It is another object of the present invention to provide a multi-node communication system capable of performing billing processing such as metered billing by managing messages with a center server.

  In order to solve the above problems, the present invention interconnects a center server including a program management server, a plurality of transmission / reception nodes that perform peer-to-peer communication via the Internet network, and the plurality of transmission / reception nodes. A multi-node communication system comprising a sender-receiver gateway, a program registration unit for registering program information for remote lecture type communication in the program management server, and one or more receptions for which the center server has authenticated the program information And a program providing unit that performs broadcast communication via the Internet via the sender-side gateway, and the receiving-side node that has obtained the authentication selects a program to be received and passes through the receiver-side gateway. The program is received.

  Further, in the present invention, the transmitting side node transmits the program from the transmitting side gateway to the receiving side gateway to which the one or more receiving side nodes authenticated by the center server belong by the branching device. It is characterized by performing broadcast communication via the Internet network.

  Further, in the present invention, the transmitting side node receives the information as a result of the questioning operation being performed at the receiving side node, performs list management by a question queue, and performs peer management with the receiving side node. A peer-to-peer communication management unit for managing communication start and end is provided.

  In the present invention, the transmission side node broadcasts information related to the question with the reception side node via a one-to-many communication path.

  In the present invention, the center server receives a message regarding a communication state from each transmitting / receiving node that performs peer-to-peer communication, and the program identifier uniquely assigned to each of the message and each program A billing processing unit for billing by identifying.

According to the present invention, a P2P communication is directly performed at a transmission / reception side node, and a transmission side node registers a program for 1: L (N) distance learning communication with the program management server, and the center server authenticates the program. By broadcasting to the one or more receiving nodes via the sender gateway via the Internet network, only the user management and the program management can be performed by the center server, and the P2P communication can be directly performed between the transmitting and receiving nodes. Therefore, a 1: multiple remote lecture communication system can be easily constructed, and the load on the center server at that time can be greatly reduced.
In addition, by managing the start and end of communication by peers and peers between the sending and receiving nodes, it is possible to perform appropriate accounting processing at the center server, and even if the center server fails, authentication of the receiving node As long as it is completed, the program can be transmitted and received continuously.

Hereinafter, embodiments of a multi-node communication system according to the present invention will be described in detail with reference to the drawings.
FIG. 1 is a diagram showing a schematic configuration of a multi-node communication system according to an embodiment of the present invention. 1, a multi-node communication system according to an embodiment of the present invention includes a user management and user state management server 10 managed by a service provider that provides a P2P communication tool, and a program management server 100 ( Hereinafter, unless otherwise noted, these servers 10 and 100 are collectively referred to as a center server 1) and a plurality of transmission / reception side nodes 2 and 3 on the service user side are connected via the Internet network 8. The plurality of transmission / reception nodes 2 and 3 are computers, portable communication terminals, and the like that are in an environment where the Internet network 8 is accessible.
A plurality of transmission / reception side nodes 2 and 3 (here, transmission side node 2 and reception side node 3) and Internet network 8 are connected to transmission / reception side gateways 4 and 5 (here, Sender side GW4, receiver side GW5), and branching devices 6 and 7 are connected.

  In the above configuration, the transmission side node 2 registers a program for 1: L (N) remote lecture communication in the center server 1 and receives at least one reception of the program authenticated by the center server 1 using video and audio media. Broadcast communication is performed to the side node 3 via the Internet side 8 via the sender side GW 4. That is, the center server 1 is configured to perform only user management and program management, and perform two-way communication directly between the transmitting and receiving nodes 2 and 3 with P2P regarding the questions during and after the lecture. Note that the transmission side node 2 performs information management using a queue for question and answer information. Details of both will be described later.

FIG. 2 is a block diagram showing an expanded function of the internal configuration of the center server in the multi-node communication system according to the embodiment of the present invention, in which only portions related to the present invention are extracted and shown.
The center server 1 includes a tool providing unit 11, an installation information registration management unit 12, a tool authentication unit 13, a communication state management unit 14, a billing processing unit 15, a program registration management unit 16, a management DB 17, a tool It comprises a DB 18, a log file 19, and a program list 20.

The tool providing unit 11 holds a tool used in P2P communication in a format that can be downloaded by the user, and has a function of providing the tool in response to an installation request from the transmission / reception side nodes 2 and 3. Each user using the transmission / reception side nodes 2 and 3 can use the P2P communication by downloading and installing the tool in the tool DB 18 from the center server 1 by the tool providing unit 11.
The installation information registration management unit 12 issues a serial number in response to a request for the transmission / reception side nodes 2 and 3 to install the tool, and the authentication information (digest) generated by the transmission / reception side nodes 2 and 3 corresponds to the serial number. In addition, it has a function of saving and managing in the management DB 17.

The tool authenticating unit 13 has a function of authenticating the use of the tool in order to start P2P communication by the tool installed in the transmitting and receiving side nodes 2 and 3. Here, authentication refers to verification of authentication information (digest) and serial number transmitted from the transmission / reception side nodes 2 and 3 and results such as authentication OK if they match, authentication NG if they do not match. Is transmitted to the transmission / reception side nodes 2 and 3 that requested the authentication. The tool authentication unit 13 starts processing based on the tool authentication request transmitted from each of the transmission / reception side nodes 2 and 3 and transmits the result to the transmission / reception side nodes 2 and 3 as a tool authentication response.
The communication state management unit 14 receives a communication state message (communication message, communication end message) notified by a communication state communication function of a tool installed in the transmission / reception side nodes 2 and 3, and stores the message contents in a log file. 19 has a function of recording and managing.

The program registration management unit 15 receives the program information and the receiver registration information registered prior to the program provided by the transmission side node 2 and manages them as a program list 20, and from the time, the sender, and the program identification number It has the function which transmits the parameter information which consists of to the sender | side GW4.
The billing processing unit 16 receives a message related to the communication state from the transmission / reception side nodes 2 and 3 that perform P2P communication, and identifies the message and a program identifier uniquely assigned to each provided program. It has a function to do.

The tools installed in the respective transmitting / receiving nodes 2 and 3 used by each user can be acquired by the tool providing unit 11 on the center server 1. FIG. 3 is a block diagram showing an expanded function of the internal configuration of the transmission / reception side node, and shows only a portion related to the present invention. In FIG. 3, the function of each block is equivalent to the function included in the tool acquired by the transmission / reception side nodes 2 and 3 from the center server 1.
The transmission / reception side nodes 2 and 3 include a digest registration unit 21, an authentication unit 22, a program registration unit 23, a program provision unit 24, a transmission / reception side GW connection control unit 25, and a communication state notification unit 26. , A program receiving unit 27, a question and answer information queue 28, a P2P communication management unit 29, and a program information DB 30.

The digest registration unit 21 requests the serial number of the tool to the installation information registration management unit 12 on the center server 1 when installing the tool on the transmission / reception side nodes 2 and 3, and after obtaining the serial number, the irreversible encryption Is used to generate a digest from the serial number and the time data on the transmission / reception side nodes 2 and 3, and register the digest as authentication information in the installation information registration unit 12.
The authentication unit 22 transmits the serial number acquired by the digest registration unit 21 and the digest generated by the digest registration unit 21 to the tool authentication unit 13 on the center server 1 at the start of P2P communication by the tool, and the tool authentication unit 13 is received. If the result is authentication OK (acceptance), communication is started. If the result is NG (rejection), the tool is returned to the initial state.

  The program registration unit 23 has a function of registering program information in the center server 1 prior to providing a program for remote lecture communication. In addition, the program providing unit 24 has a function of performing broadcast communication via the Internet network 8 via the sender side GW 4 to one or more receiving side nodes authenticated by the center server 1 with respect to the program information stored in the program information DB 30. . This broadcast communication is performed under the control of the sender / receiver-side GW connection control unit 25 to the receiver-side GW 5 to which one or more receiver-side nodes 3 authenticated by the center server 1 from the sender-side GW 4 belong. This is performed by the branching devices 6 and 7.

During the P2P communication by the tool, the communication state notification unit 26 communicates with the communication state management unit 14 on the center server 1 at a certain time interval determined by the tool, and a one-way function based on the communication. It has a function of transmitting the generated authentication code and at least one or more pieces of communication information. Further, when terminating the P2P communication by the tool, the communication state notification unit 26 sends a communication end message to the communication state management unit 14 on the center server 1 and an authentication code generated by a one-way function based on the communication end message. And at least one piece of communication information.
The communication information transmitted from the transmission / reception side nodes 2 and 3 to the communication state management unit 14 on the center server 1 by the communication state notification unit 26 is “communication start” in the P2P communication between the transmission / reception side nodes 2 and 3. From the start of communication ”,“ cumulative value of the amount of transmitted data since the start of communication ”,“ cumulative value of the amount of received data since the start of communication ”,“ size of individual communication data ”,“ data octets ”,“ number of packets ” However, the present invention is not limited to these, and “error data octets” relating to failures and the like can also be used as data.

On the other hand, the program receiving unit 27 has a function of selecting a program to be received, receiving the program via the receiver side GW 5 and allowing the user to view the program only when the authentication is obtained by the center server 1. .
Further, the P2P communication management unit 29 receives the information when the questioning operation is performed at the receiving side node 3, performs list management by the question information queue 28, and starts communication with the receiving side node 3 by P2P communication It has a function to manage termination.

4 and 5 are operation sequence diagrams quoted for explaining the operation of the multi-node communication system according to the embodiment of the present invention. Here, the center server 1 (user management, user state management server 10, program) is described. The sequence among the management server 100), the sender side GW4, the sender side node 2, the receiver side GW5, and the receiver side node 3 is described.
The operation of the multi-node communication system according to the embodiment of the present invention shown in FIGS. 1 to 3 will be described in detail below with reference to the operation sequence diagrams shown in FIGS.

First, the sending node 2 issues an authentication request to the center server 1 (user management, user status management server 10) by the authentication unit 22 prior to providing the program (S401), and obtains an authentication result from the center server 1 ( S402). Here, when the authentication is OK, the transmitting side node 2 registers the program information and the receiver for which the program registration unit 23 performs the remote lecture type communication with the center server 1 (program management server 100) (S403). ), A registration response (S404: program registration OK) is obtained.
On the other hand, the center server 1 (program management server 100) transmits program management information including “time”, “sender”, and “program identification number” to the sender side GW 4 to which the sender side node 2 belongs, The sender GW 4 receiving this makes preparations for the broadcast communication (S405). In the sender side node 2, the authentication unit 22 again issues an authentication request to the center server 1 (user management, user state management server 10) (S406), obtains authentication (S407), and sends it to the sender side GW4. A transmission call is made (S408).

In the sender side node 2, when the call response is obtained from the sender side GW4 (S409), the program providing unit 24 is activated, the program providing unit 24 reads out the program stored in the program information DB 30, and the sender side GW4. Video transmission is started toward (step S410).
Subsequently, the transmitter / receiver side GW connection control unit 25 operates to transmit program information for remote lecture type communication to one or more reception side nodes 3 authenticated by the center server 1, and send the transmission side GW4 and the receiver side GW5. Via the Internet network 8. The broadcast communication is realized on the Internet network 8 by the branching devices 6 and 7 installed by the P2P service provider (S411).
At this time, the communication status notification unit 26 transmits a communication information log (during the transmission of 1: N program by the sender GW 4) to the center server 1 (S412). This communication information log is used for billing processing in the center server 1. In the broadcast communication, each receiver-side GW 5 can transmit a program to the receiving-side node 3, and the receiving-side node 3 that has obtained the authentication selects a program to be received and receives the receiver. The program can be received via the side GW 5.

Specifically, the receiving side node 3 issues an authentication request to the center server 1 (S413), and obtains an authentication result (S414). The authentication result also includes the address of the transmission side node 2, and calls the receiver side GW5 based on the information and the program identification number (S415), receives a call response (S416), and receives the call response from the receiver side GW5. , 1: N program transmission is received (S417).
At this time, the communication state notifying unit 26 transmits a communication information log (1: many programs are being transmitted on the receiver side GW 5) to the center server 1 (S418), and starts charging processing in the center server 1. . The billing processing unit 16 in the center server 1 receives a message relating to the communication state from each of the transmitting / receiving nodes 2 and 3 performing P2P communication, and identifies the message and a program identifier uniquely assigned to each program. Users can be charged.

Finally, the end user disconnects the line at the receiving node 3 at the end of the program or according to an appropriate luck timing (S419), and a disconnection response is obtained from the receiver GW5 (S420). By disconnecting the line (S421), a disconnection response is obtained from the sender GW4, and the 1: N program by P2P is ended (S422).
In addition to the one-way transmission of the remote lecture type communication program described above, when the receiver performs a question and the like, the question and answer operation is performed on the node to which the receiver belongs (transmission side node 2), so that the question information is P2P. The list management by the queue is performed in the communication management unit 29, and the start and end of bidirectional P2P communication with the questioner is controlled in the transmission side node 2.

As described above, according to the present invention, the transmission / reception side nodes 2 and 3 perform P2P communication directly, and the transmission side node 2 registers a program that performs 1: multi-distance lecture-type communication in the center server 1. By broadcasting to the one or more receiving side nodes 3 authenticated by the center server 1 via the sender side GW 4 via the Internet network 8, the center server 1 performs only user management and program management, and the transmitting and receiving side nodes 2, Since P2P communication can be directly performed between the three, a 1: N remote lecture communication system can be easily constructed, and the load on the center server 1 at that time can be greatly reduced.
Further, by managing the start and end of communication by P2P between the transmission / reception side nodes 2 and 3, it is possible to perform an appropriate accounting process at the center server, and even if the center server fails, the reception side node As long as the authentication is completed, the program can be transmitted and received continuously.

  2 and 3, the tool providing unit 11, the installation information registration management unit 12, the tool authentication unit 13, the communication state management unit 14, the charging processing unit 15, the program registration management unit 16, Digest registration unit 21, authentication unit 22, program registration unit 23, program providing unit 24, sender / receiver side GW connection control unit 25, communication state notification unit 26, program reception unit 27, and P2P The multi-node communication system of the present invention is realized by recording the procedure executed by each of the communication management units 29 on a computer-readable recording medium, causing the computer system to read and execute the program recorded on the recording medium. can do. The computer system here includes an OS and hardware such as peripheral devices.

Further, the “computer system” includes a homepage providing environment (or display environment) if a WWW system is used.
The program may be transmitted from a computer system storing the program in a storage device or the like to another computer system via a transmission medium or by a transmission wave in the transmission medium. Here, the “transmission medium” for transmitting the program refers to a medium having a function of transmitting information, such as a network (communication network) such as the Internet or a communication line (communication line) such as a telephone line.
The program may be for realizing a part of the functions described above. Furthermore, what can implement | achieve the function mentioned above in combination with the program already recorded on the computer system, and what is called a difference file (difference program) may be sufficient.

  The embodiment of the present invention has been described in detail with reference to the drawings. However, the specific configuration is not limited to this embodiment, and includes design and the like within the scope not departing from the gist of the present invention.

It is a figure which shows schematic structure of the multi-node communication system which is embodiment of this invention. It is the block diagram which expanded the function and showed the internal structure of the center server in the multi-node communication system which is embodiment of this invention. It is the block diagram which expanded the function and showed the internal structure of the transmission / reception side node in the multi-node communication system which is embodiment of this invention. It is the flowchart quoted in order to demonstrate operation | movement of the multi-node communication system which is embodiment of this invention. It is the flowchart quoted in order to demonstrate operation | movement of the multi-node communication system which is embodiment of this invention.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Center server (user management, user state management server 10, program management server 100), 2 (3) ... Node on transmission / reception side, 4 (5) ... Gateway on transmission / reception side, 6 (7) ... Branch device, DESCRIPTION OF SYMBOLS 8 ... Internet network, 11 ... Tool provision part, 12 ... Installation information registration management part, 13 ... Tool authentication part, 14 ... Communication state management part, 15 ... Charge processing part, 16 ... Program registration management part, 21 ... Digest registration , 22 ... Authentication unit, 23 ... Program registration unit, 24 ... Program provision unit, 25 ... Sender (receiver) side GW connection control unit, 26 ... Communication state notification unit, 27 ... Program reception unit, 29 ... P2P communication management Part

Claims (5)

A multi-node communication system comprising a center server including a program management server, a plurality of transmission / reception nodes that perform peer-to-peer communication via the Internet, and a transmitter / receiver gateway that interconnects the plurality of transmission / reception nodes. There,
A program registration unit for registering program information for remote lecture-type communication in the program management server;
A program provider that broadcasts the program information to one or more receiving nodes authenticated by the center server via the Internet gateway via the sender gateway;
The receiving node that has obtained the authentication selects a program to be received, and receives the program via the receiver gateway.   The transmitting side node distributes the program from the transmitting side gateway to the receiving side gateway to which one or more receiving side nodes authenticated by the center server belong via the Internet network by a branching device. The multi-node communication system according to claim 1, wherein information communication is performed. The transmitting side node receives the information as a result of the questioning operation being performed at the receiving side node, manages the list by the question queue, and manages the start and end of communication with the receiving side node by the peer / peer Peer-to-peer communication manager,
The multi-node communication system according to claim 1, further comprising:   The multi-node communication system according to claim 3, wherein the transmission side node broadcasts information related to questions with the reception side node via a one-to-many communication path. The center server is
A charging processing unit that receives a message regarding a communication state from each of the transmitting and receiving nodes that performs peer-to-peer communication, and charges by identifying the message and a program identifier uniquely assigned to each of the programs;
The multi-node communication system according to claim 1, comprising:

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