JPWO2014083922A1 - Information distribution system, information distribution method, communication terminal, and program - Google Patents

Abstract

The transmitting terminal selects a representative terminal from among a plurality of receiving terminals that request distribution of the same information according to a predetermined selection method, transmits information to the representative terminal by one-to-one communication, and The first MAC address indicating the transmission destination of the packet included in the packet to be transmitted to is converted to a second MAC address at which the receiving terminal other than the representative terminal can receive the packet. When the receiving terminal is notified that the representative terminal has been selected, the receiving terminal receives information by one-to-one communication from the transmitting terminal, and when the transmitting terminal is notified that the representative terminal is not selected, the transmitting terminal transmits Intercept information transmitted from the terminal to the representative terminal.

Description

  The present invention relates to an information distribution system, an information distribution method, a communication terminal, and a program for distributing information from a communication terminal to another communication terminal.

  Methods for distributing information from a communication terminal to other communication terminals are roughly classified into one-to-one communication and one-to-many communication. TCP (Transport Control Protocol) and TCP / IP (Internet Protocol) are known as typical communication protocols for one-to-one communication. When distributing the same content to a plurality of communication terminals by such one-to-one communication, if the content is transmitted to each communication terminal one by one, the more the number of communication terminals to which the content is transmitted increases, the more the content is distributed. The time required increases and the communication efficiency decreases.

  On the other hand, there are a broadcast method and a multicast method as one-to-many communication methods. In these communication methods, the same content can be simultaneously distributed to a plurality of communication terminals, so that the content can be distributed with high communication efficiency. However, in a general broadcast system or multicast system, there is a problem that communication reliability is low because transmission / reception of a control message such as a retransmission request or confirmation response or retransmission of a lost packet is not performed between communication terminals.

  Further, in the one-to-many communication as described above, when transmitting / receiving a control message or retransmitting a lost packet, if a packet cannot be normally received by a plurality of communication terminals, transmission / reception of a control message for each communication terminal is performed. It is necessary to retransmit the packet. Therefore, there is a problem that the processing load required for transmission / reception of control messages and retransmission of lost packets increases. Also, in one-to-many communication, it is difficult to effectively implement congestion control like one-to-one communication.

  Non-Patent Document 1 and Patent Document 1 propose an example of a content distribution method that solves such a problem.

  In Non-Patent Document 1 and Patent Document 1, a communication terminal (transmission terminal) that distributes content transmits content to a specific communication terminal in a one-to-one communication, and at the same time, is transmitted from the transmission terminal to the specific communication terminal. A method is also described in which other communication terminals (receiving terminals) are intercepted by the content data.

  A multicast communication system capable of multicasting a large amount of data even when using a modem whose communication speed fluctuates rapidly, such as a power line communication (PLC) system or a wireless LAN (Local Area Network), is, for example, This is proposed in Patent Document 2. Patent Document 2 describes a multicast packet transfer method in a multicast communication system in which a PLC network or a wireless LAN or the like whose communication speed is likely to change is used as a sub-network.

  In the technology described in Non-Patent Document 1 and Patent Document 1 described above, content is transmitted to a specific communication terminal by a one-to-one communication method, and at the same time, content transmitted from the transmission terminal to the specific communication terminal. Since data is intercepted by other communication terminals, content can be efficiently distributed to a plurality of communication terminals in a shorter time while realizing highly reliable communication.

  By the way, in many communication networks, in order to prevent unauthorized transmission / reception of data to be transmitted / received, encryption is performed by encoding (encrypting) data to be transmitted / received using a predetermined encryption key. The method is adopted. For example, in a wireless LAN or the like, WPA (Wi-Fi Protected Access) or WPA2 that uses different encryption keys for one-to-many communication and one-to-one communication, and uses different encryption keys for each communication partner in one-to-one communication. An encryption method is adopted. When the technology described in Non-Patent Document 1 or Patent Document 1 is applied to a communication network that employs such an encryption method, a communication terminal that does not perform one-to-one communication with a transmitting terminal can receive encrypted content. Since data is intercepted, it is necessary to decrypt the content data and reproduce the content.

  However, in the non-patent document 1 and the patent document 1, nothing is mentioned about a specific processing method in a communication network adopting an encryption method, and therefore, a communication terminal that does not perform one-to-one communication with a transmission terminal. The encryption key for one-to-one communication cannot be acquired, and the content cannot be reproduced. That is, with the techniques described in Non-Patent Document 1 and Patent Document 1, it is difficult to realize information distribution in a communication network that employs an encryption method.

  As described above, Patent Document 2 describes a multicast communication system including a PLC system (or a wireless LAN or the like) as a subnetwork. In the communication system described in Patent Document 2, a multicast packet is not transferred by multicast communication between modems in a PLC system whose communication speed is likely to fluctuate, and the modem on the transmission side once converts the multicast packet into a unicast packet. The data is transferred to the receiving modem by one-to-one communication. Furthermore, in the communication system described in Patent Document 2, the modem on the receiving side that has received the converted unicast packet is returned to the multicast packet, and the multicast packet is required (connected by Ethernet (registered trademark)). Transfer to the terminal by multicast communication. In this way, multicast packets can be transferred between modems in a PLC system (power line) by one-to-one communication, and multicast packets can be transferred to terminals connected by Ethernet (registered trademark) by multicast communication. Multicast packets can be appropriately transferred in a network having a PLC system with a large fluctuation in communication speed of multicast communication as a subnetwork.

  However, in the multicast communication in the communication system described in Patent Document 2, the communication between the modem on the transmission side and the terminal on the reception side is a multicast communication that does not have a retransmission function, so high reliability cannot be expected. The one-to-many communication (including multicast) problem (low communication reliability) already described in the background art has not been solved.

Japanese Patent Laid-Open No. 2001-147883 JP 2008-187626 A

Seto Tsuruta, Shinji Miyamoto, “Proposal and Evaluation of Simple Reliable Broadcast Protocol for High-Efficiency Transmission of Large Volumes of Data”, IPSJ Journal, Vol.27, No.4, pp.462 −470

  Therefore, an object of the present invention is to provide an information distribution system, an information distribution method, a communication terminal, and a program capable of distributing information by a highly reliable communication method while improving distribution efficiency.

In order to achieve the above object, the information distribution system of the present invention selects a representative terminal from among a plurality of receiving terminals that request distribution of the same information according to a predetermined selection method, and provides reliability to the representative terminal. When transmitting the information by one-to-one communication using a certain communication protocol, a first MAC address indicating a transmission destination of the packet included in a packet to be transmitted to the representative terminal including the information is represented by the representative A transmitting terminal that converts the packet into a second MAC address that can be received by a receiving terminal other than the terminal and transmits the packet;
When the transmission terminal is notified that the representative terminal is selected, the information is received from the transmission terminal through the one-to-one communication, and the transmission terminal is notified that the representative terminal is not selected. Then, the information transmitted from the transmitting terminal to the representative terminal is intercepted, and the information that could not be intercepted is one or more receiving terminals that request the terminal having the same information again,
Have

On the other hand, in the information distribution method of the present invention, the transmitting terminal
Select a representative terminal from among a plurality of receiving terminals that request distribution of the same information according to a predetermined selection method,
When transmitting the information in a one-to-one communication using a reliable communication protocol to the representative terminal, a first destination indicating the transmission destination of the packet included in the packet transmitted to the representative terminal including the information 1 MAC address is converted to a second MAC address that can be received by the receiving terminal other than the representative terminal, and transmitted,
A plurality of receiving terminals that receive the information from the transmitting terminal,
When notified that the representative terminal has been selected by the transmitting terminal, the information is received from the transmitting terminal by the one-to-one communication,
When it is notified from the transmitting terminal that the representative terminal is not selected, the information transmitted from the transmitting terminal to the representative terminal is intercepted, and the information that cannot be intercepted is again transmitted to the terminal having the same information. It is a method to request.

The communication terminal of the present invention is a communication terminal that operates as a transmission terminal that transmits information or a reception terminal that receives the information,
When operating as the transmitting terminal, a representative terminal is selected from a plurality of receiving terminals that request distribution of the same information according to a predetermined selection method, and a reliable communication protocol is used for the representative terminal. When the information is transmitted by the one-to-one communication and operates as the receiving terminal, if the representative terminal is notified of the selection from the transmitting terminal that transmits the information, the transmitting terminal transmits the one-to-one A content distribution control unit for receiving the information by communication;
When operating as the transmitting terminal, a receiving terminal other than the representative terminal can receive the packet with the first MAC address indicating the transmission destination of the packet included in the packet transmitted to the representative terminal including the information. A MAC address conversion unit for converting to a second MAC address;
When operating as the receiving terminal, when notified from the transmitting terminal that the representative terminal is not selected, a data packet intercepting unit that intercepts the information transmitted from the transmitting terminal to the representative terminal;
Have

The program of the present invention is a program for operating a communication terminal as a transmission terminal for transmitting information or as a reception terminal for receiving the information,
When operating the communication terminal as the transmission terminal,
In accordance with a predetermined selection method, the representative terminal is selected from a plurality of receiving terminals that request distribution of the same information,
A first MAC address indicating a transmission destination of the packet included in a packet to be transmitted to the representative terminal including the information is transmitted to the representative terminal by one-to-one communication, and other than the representative terminal The receiving terminal converts the packet to a second MAC address that can receive the packet, and transmits the packet.
When operating the communication terminal as the receiving terminal,
When notified that the representative terminal has been selected by the transmitting terminal, the information is received from the transmitting terminal by the one-to-one communication,
When it is notified from the transmitting terminal that the representative terminal is not selected, the information transmitted from the transmitting terminal to the representative terminal is intercepted, and the information that cannot be intercepted is again transmitted to the terminal having the same information. It is for requesting.

FIG. 1 is a block diagram showing a configuration example of an information distribution system according to the present invention. FIG. 2 is a block diagram illustrating a configuration example of a communication terminal serving as a transmission terminal and a reception terminal illustrated in FIG. FIG. 3 is a flowchart showing an example of a processing procedure when information is received by the communication terminal shown in FIG. FIG. 4 is a flowchart showing an example of the processing procedure of step A6 shown in FIG. FIG. 5 is a flowchart showing an example of the processing procedure of step A7 shown in FIG. FIG. 6 is a flowchart illustrating an example of a processing procedure when information is transmitted from the communication terminal illustrated in FIG. FIG. 7 is a flowchart showing an example of the processing procedure of step B5 shown in FIG. FIG. 8 is a block diagram showing the configuration of the first embodiment of the information distribution system of the present invention. FIG. 9 is a block diagram showing the configuration of the second embodiment of the information distribution system of the present invention.

  Next, the present invention will be described with reference to the drawings.

  FIG. 1 is a block diagram showing a configuration example of an information distribution system according to the present invention.

  As shown in FIG. 1, a communication network to which the information distribution system of the present invention is applied includes at least one transmission terminal 1 that is a communication terminal that transmits information, and a plurality of reception terminals 10 that are communication terminals that receive information. It is the structure which has. The transmitting terminal 1 and the receiving terminal 10 can transmit and receive information based on wireless communication standards such as IEEE802.11a, IEEE802.11b, IEEE802.11g, IEEE802.11n, etc. adopting an encryption method such as WPA or WPA2. Connected to. The transmission terminal 1 and the reception terminal 10 may be connected so as to be able to transmit and receive information based on a communication standard that directly forms a link between communication terminals, for example, well-known Wi-Fi direct.

  Hereinafter, the distribution target in the present invention is referred to as “content”, but the distribution target is “information” in general and is not limited to specific content.

  FIG. 2 is a block diagram illustrating a configuration example of a communication terminal serving as a transmission terminal and a reception terminal illustrated in FIG.

  As shown in FIG. 2, the communication terminal 100 of this embodiment includes a content distribution control unit 101, a MAC (Media Access Control) address conversion unit 102, a data packet interception unit 103, a content restoration unit 104, a network processing unit 105, a MAC A processing unit 106 and a packet transmission / reception unit 107 are provided.

The transmission terminal 1 and the reception terminal 10 shown in FIG. 1 are the content distribution control unit 101, the MAC address conversion unit 102, the data packet interception unit 103, the content restoration unit 104, the network processing unit 105, and the MAC processing unit 106 shown in FIG. The communication terminal 100 includes the packet transmission / reception unit 107. The communication terminal 100 is the transmission terminal 1 when transmitting content, and the reception terminal 10 when receiving content. Each communication terminal 100 can mutually know the contents held by each communication terminal 100 in the communication network by periodically exchanging a list of contents (content list) held by the own terminal. And How to replace the content list, for example, non-patent literature 2 (Jonah P. Tower and Thomas DC Little, "A Proposed Scheme for Epidemic Routing with Active Curing for Opportunistic Networks", Proceeding of 22 nd International Conference on Advanced Information Networking and Applications, This can be achieved with the technology described in March 2008, pp. 1696-1701). Non-Patent Document 2 discloses a method of sharing information held in each communication terminal by exchanging information (a list of shared information) called “Summary Vector”.

  The communication terminal 100 shown in FIG. 2 can be realized by various electric devices having a function as an information processing device including a CPU, a memory, an input / output device, a communication circuit, and the like that operate according to a program. As the communication terminal 100, for example, a mobile phone, a PHS (Personal Handyphone System), a PDA (Personal Data Assistance, Personal Digital Assistants), a game machine, a digital camera, a notebook type, a tablet type, or a stationary personal computer can be considered.

  The communication terminal 100 of the present invention has a normal mode and a carpool communication mode as communication modes for information distribution. The normal mode is a communication mode in which information is transmitted and received by general one-to-one communication. For example, communication is performed using TCP or TCP / IP as a communication protocol. Since the one-to-one communication using TCP, TCP / IP or the like is a technique well known to those skilled in the art, a detailed description thereof is omitted here. The carpooling communication mode is a method in which content data is transmitted in a packet format to a specific receiving terminal 10 (hereinafter referred to as a representative terminal) selected by the transmitting terminal 1 in a packet format, and simultaneously transmitted to other receiving terminals 10. This is a communication mode in which the same packet is intercepted.

  In the present invention, the data packet included in the data packet transmitted from the transmission terminal 1 to the representative terminal when the data packet is transmitted from the transmission terminal 1 to the representative terminal in one-to-one communication at the time of information distribution in the carpool communication mode. Is converted into a MAC address (second MAC address) that can be intercepted by the receiving terminal 10 other than the representative terminal. Examples of such a MAC address include a broadcast address and a multicast address. In the present invention, at the time of information distribution in the carpool communication mode, the transmission terminal 1 encrypts and transmits the data packet to the representative terminal using an encryption key for one-to-many communication such as broadcast or multicast. In the one-to-one communication between the transmission terminal 1 and the representative terminal, a communication protocol such as TCP or TCP / IP is used as in the normal mode.

  The receiving terminal 10 that intercepts the data packet operates in, for example, a well-known Promiscuous mode, and can receive a data packet of desired content by intercepting a packet that is not addressed to its own IP address. Having received the data packet, the receiving terminal 10 decrypts the content data by using an encryption key for one-to-many communication such as broadcast or multicast distributed in advance and reproduces the content. Further, in the present invention, the transmission terminal 1 divides the content to be distributed into data blocks of a predetermined size set in advance, and transmits the content ID and block ID assigned to each data block. When the reception terminal 10 fails to intercept the data block, the reception terminal 10 requests retransmission to the transmission terminal 1 in units of data blocks that have failed to be intercepted.

  First, the content request, content reply, end message, and retransmission request, which are control messages used in the present invention, will be described.

  A content request is a message used by a communication terminal 100 that desires to receive certain content (information) to request the communication terminal 100 that holds the content to transmit the content. The content request includes at least a content ID for identifying content requested to be transmitted and an ID for identifying the communication terminal 100 that has transmitted the content request.

  The content reply is a message for notifying that the communication terminal 100 that owns the content transmits the requested content to the communication terminal 100 that requested the transmission of the content. In the content reply, at least an ID for identifying the representative terminal or an IP address of the representative terminal, an ID for identifying the communication terminal 100 that has transmitted the content reply, and a content to be transmitted are identified. Content ID. When the communication terminal 100 that owns the content transmits content data in the normal mode, for example, “1” is all stored in the ID field of the representative terminal.

  The end message is a message for informing the communication terminal 100 (reception terminal 10) that receives the content data that the communication terminal 100 (transmission terminal 1) that transmits the content data has finished distributing the content in the carpool communication mode. It is. The end message includes at least an ID for identifying the transmission terminal 1, a content ID for identifying the content to be transmitted, and a flag indicating the end message.

  The retransmission request is a message for the receiving terminal 10 that has failed to intercept the content to request the transmitting terminal 1 to retransmit the data block of the content that has failed to be intercepted. The retransmission request includes at least a content ID for identifying content requesting retransmission, a block ID of a data block requesting retransmission, and an ID for identifying a communication terminal that transmits the retransmission request. .

  2 implements a PHY layer (physical layer) defined by a network protocol. When the packet transmitting / receiving unit 107 receives a packet from another communication terminal 100, the packet transmitting / receiving unit 107 outputs the received packet to the MAC processing unit 106. When a packet is received from the MAC processing unit 106 of the own terminal, the packet is transmitted to another communication terminal 100 that is the destination of the packet.

  The MAC processing unit 106 implements a MAC layer defined by a network protocol. When the MAC processing unit 106 receives a packet from the network processing unit 105, the MAC processing unit 106 executes a required process according to the MAC protocol and outputs the processed packet to the packet transmitting / receiving unit 107. In addition, when the MAC processing unit 106 receives a packet from the packet transmitting / receiving unit 107, the MAC processing unit 106 executes a required process according to the MAC protocol and outputs the processed packet to the network processing unit 105. Further, when the MAC processing unit 106 receives a packet interception instruction (for example, execution command in the Promiscuous mode) from the data packet interception unit 103 from the data packet interception unit 103, the MAC processing unit 106 is not addressed to the IP address of the own terminal received by the packet transmission / reception unit 107 The packet is output to the data packet interception unit 103. Further, when the MAC processing unit 106 is instructed to convert the destination MAC address of the packet to be transmitted to the representative terminal from the MAC address conversion unit 102, the MAC processing unit 106 is included in the packet to be transmitted to the representative terminal according to the instruction Rewrite the MAC address of the packet destination.

  The network processing unit 105 implements a TCP or TCP / IP layer in the network protocol. When the network processing unit 105 receives a packet (control message or data packet) from the MAC processing unit 106, the network processing unit 105 executes a known process defined by TCP or TCP / IP, and sends the processed packet to the content distribution control unit 101. Output. Further, upon receiving the data block from the content distribution control unit 101, the network processing unit 105 divides the data block according to TCP or TCP / IP, generates a data packet, and sends the generated data packet to the MAC processing unit 106. Output.

  The functions of the network processing unit 105, the MAC processing unit 106, and the packet transmission / reception unit 107 are realized by a kernel included in an OS (Operation System) of the communication terminal 100, for example. In that case, the communication terminal 100 executes processing according to a network protocol such as TCP / IP, MAC, or PHY implemented in the kernel. Since processes according to network protocols such as TCP / IP, MAC, and PHY are well known to those skilled in the art, a detailed description thereof is omitted here.

  When the MAC address conversion unit 102 receives an instruction to distribute content in the shared communication mode from the content distribution control unit 101, the MAC address included in the data packet to be transmitted to the representative terminal is changed to the other MAC address of the data packet. It is converted into a MAC address that can be intercepted by the receiving terminal 10. Such addresses include broadcast addresses (specifically, “ff-ff-ff-ff-ff-ff”) and multicast addresses. The MAC address conversion process can be realized by using, for example, a well-known ARP (Address Resolution Protocol) technique. ARP is a technique for storing / updating, as an ARP table, information indicating a correspondence relationship between a MAC address and an IP address, which is used when a destination MAC address is obtained from an IP address. Since ARP is a technique well known to those skilled in the art, a detailed description thereof is omitted here.

  When the data packet interception unit 103 receives an instruction to start intercepting data packets in the shared communication mode from the content distribution control unit 101, the data packet interception unit 103 instructs the MAC processing unit 106 to receive a packet not addressed to the IP address of the terminal itself. Such an intercept function, for example, launches the Promiscuous mode of Libcap (such as Wincapcap in the case of Windows (registered trademark)), which is a library (program) for packet capture provided by a UNIX (registered trademark) OS. Can be realized. Since interception of packets in the Promiscuous mode is a common technique, detailed description thereof is omitted here. Hereinafter, an operation in which the receiving terminal 10 intercepts a data packet is referred to as “interception mode”. Further, the data packet interception unit 103 assembles a data block from the data packet received from the MAC processing unit 106, and outputs the assembled data block to the content restoration unit 104.

  The content restoration unit 104 assembles the data blocks received from the content distribution control unit 101 or the data packet interception unit 103, and restores the original content. When all the data blocks constituting the content are not prepared, the content restoration unit 104 sets the block ID of the data block that is insufficient, that is, the data block that has failed to be intercepted (hereinafter referred to as interception failure data block), to the content distribution control unit 101. Notify

  The content distribution control unit 101 is a control device that implements the content distribution method of the present invention.

  When the own terminal is the transmitting terminal 1, when receiving the content request via the network processing unit 105, the content distribution control unit 101 is based on the number of content requests that arrive within a predetermined time (standby time) set in advance. Decide whether to distribute the content in the normal mode or the content in the carpool communication mode. When the content distribution control unit 101 receives a content request that is equal to or greater than a preset threshold value within the standby time, the content distribution control unit 101 determines to transmit the content in the carpool communication mode, and if the content request is less than the threshold value, the normal mode Decide to send content. In addition, when the content distribution control unit 101 determines to transmit content in the carpool communication mode, the content distribution control unit 101 selects a representative terminal according to a predetermined selection method. As a representative terminal selection method, for example, there is a method of randomly selecting one receiving terminal 10 as the representative terminal among the receiving terminals 10 that have transmitted the content request. When selecting the representative terminal, the content distribution control unit 101 stores the ID of the selected receiving terminal 10 in the content reply and broadcasts the content reply to the receiving terminal 10 that has transmitted the content request from the network processing unit 105. Further, the content distribution control unit 101 converts the MAC address indicating the destination (transmission destination) of the packet included in the packet transmitted to the representative terminal into a MAC address that can be intercepted by other receiving terminals 10. The unit 102 is instructed. Then, the content distribution control unit 101 divides the content data to be distributed into data blocks of a predetermined size, assigns content IDs and block IDs to the respective data blocks, and outputs them to the network processing unit 106. When the content transmission in the carpooling communication mode ends, the content distribution control unit 101 generates an end message and outputs it to the network processing unit 105.

  On the other hand, when the own terminal is the receiving terminal 10, when the content distribution control unit 101 receives the content reply via the network processing unit 105, whether or not to receive the content in the intercept mode based on the content reply information. Determine. When it is determined that the content is received in the intercept mode, the content distribution control unit 101 instructs the data packet interception unit 103 to intercept the data packet. When the own terminal is the representative terminal, the content distribution control unit 101 assembles a data block from the data packet received via the network processing unit 105 and outputs the data block to the content restoration unit 104. Hereinafter, an operation in which the receiving terminal 10 receives a data packet as a representative terminal is referred to as a “representative mode”. When the own terminal is operating in the intercept mode and receives an end message in the carpool communication mode, the content distribution control unit 101 confirms whether there is an intercept failure data block. When there is an interception failure data block, the content distribution control unit 101 generates a retransmission request for causing the transmission terminal 1 to resend the interception failure data block, and outputs the retransmission request to the network processing unit 105.

  Hereinafter, the content distribution method of the present invention will be described separately for the case where the communication terminal 100 receives content and the case where content is transmitted.

  First, the operation when the communication terminal 100 according to the present embodiment receives content will be described with reference to FIGS.

  FIG. 3 is a flowchart illustrating an example of a processing procedure when the communication terminal illustrated in FIG. 2 receives content. FIG. 4 is a flowchart showing an example of the processing procedure of step A6 shown in FIG. 3, and FIG. 5 is a flowchart showing an example of the processing procedure of step A7 shown in FIG.

  As described above, each communication terminal 100 periodically exchanges a list of contents (content list) held by itself so that information held by each communication terminal 100 in the communication network can be obtained. Suppose you share.

  As shown in FIG. 3, when a user of a communication terminal 100 inputs an instruction to receive content held by another communication terminal 100 using an input device (not shown), the content distribution control unit 101 of the communication terminal 100 A content request for requesting transmission of the specified content is generated and output to the network processing unit 105.

  The network processing unit 105 processes the content request according to a predetermined protocol (such as TCP or TCP / IP), and outputs the processed content request to the MAC processing unit 106. The MAC processing unit 106 processes the content request according to the MAC protocol, and outputs the processed content request to the packet transmitting / receiving unit 107. The packet transmitting / receiving unit 107 transmits a content request to the designated communication terminal 100 (sending terminal 1) that owns the content (step A1).

  When the packet transmission / reception unit 107 receives a content reply from the transmission terminal 1, the packet transmission / reception unit 107 outputs the content reply to the MAC processing unit 106.

  The MAC processing unit 106 processes the content reply according to the MAC protocol, and outputs the processed content reply to the network processing unit 105. The network processing unit 105 processes the content reply according to a predetermined protocol (TCP or TCP / IP or the like), and outputs the processed content reply to the content distribution control unit 101.

  When the content distribution control unit 101 receives the content reply (step A2), the content distribution control unit 101 refers to the content of the content reply and confirms whether or not the transmission terminal 1 transmits the content in the shared communication mode (step A3).

  When the transmission terminal 1 does not transmit content in the carpool communication mode, that is, when the representative terminal ID field of the content reply is a specific value (for example, the representative terminal ID field is 4 bits and the value is “1111”). Thereafter, the receiving terminal 10 receives the content in the normal mode (step A4).

  When the transmission terminal 1 transmits content in the carpooling communication mode, that is, when the field of the representative terminal ID of the content reply is other than the above specific value, the content distribution control unit 101 uses the ID of the own terminal. It is confirmed whether or not there is (step A5).

  When the field of the representative terminal ID of the content reply matches the ID of the own terminal, that is, when the own terminal is selected as the representative terminal in the carpool communication mode, the receiving terminal 10 proceeds to the process of step A6 and operates as the representative mode To do. In step A6, the receiving terminal 10 executes processing according to the procedure shown in FIG. 4, for example.

  In step A6, when receiving the packet by the packet transmitting / receiving unit 107, the receiving terminal 10 outputs the received packet to the content distribution control unit 101 via the MAC processing unit 106 and the network processing unit 105 (step A8).

  When the content distribution control unit 101 receives a packet from the network processing unit 105, the content distribution control unit 101 checks whether the received packet is a data packet (not a control message). And outputs the data block to the content restoration unit 104 (step A9).

  Upon receiving all data blocks from the content distribution control unit 101, the content restoration unit 104 restores the content and ends the process (step A10).

  In step A5, when the representative terminal ID field of the content reply does not match the own terminal ID, that is, when the own terminal is not selected as the representative terminal in the carpool communication mode, the content distribution control unit 101 performs the data packet interception unit. 103 is instructed to receive the data packet in the intercept mode.

  When the data packet interception unit 103 receives an intercept mode activation command from the content distribution control unit 101, the data packet interception unit 103 instructs the MAC processing unit 106 to receive a packet not addressed to the IP address of the terminal itself. More specifically, by starting a reception program in the Promiscuous mode such as Libcap or Winpcap, a packet that is not addressed to the IP address of the terminal itself is received.

  Subsequently, the receiving terminal 10 proceeds to the process of step A7, and executes the process according to the procedure shown in FIG. 5, for example.

  In step A <b> 7, when the receiving terminal 10 receives the packet at the packet transmitting / receiving unit 107, the receiving terminal 10 outputs the received packet to the MAC processing unit 106. The MAC processing unit 106 processes the received packet according to the MAC protocol, copies the processed packet, and outputs it to the data packet interception unit 103 (step A11).

  The data packet interception unit 103 confirms whether or not the received packet is a data packet of content requested to be transmitted from the own terminal. Specifically, the destination MAC address of the packet is a broadcast address, the destination IP address matches the IP address of the representative terminal, and the transmission source IP address is the IP address of the transmission terminal 1 that transmitted the content request. If they match and the protocol number of the IP header is TCP (6), it is determined that there is a high possibility that the received packet is a data packet of content requested to be transmitted from the own terminal.

  When the received packet is a data packet of the content requested to be transmitted, the data packet interception unit 103 sets the destination packet number in the TCP header of the received packet for each data packet group in which the pair of the source port number matches. A data block is assembled from the data packet, and when the content ID of the assembled data block matches the content ID requested to be transmitted, the data block is output to the content restoration unit 104. At this time, if all the data packets constituting the data block cannot be received, the data packet interception unit 103 cannot assemble the data block, and therefore does not output the data block to the content restoration unit 104.

  If the received packet is not a data packet of the content requested to be transmitted, or if a copy of the data packet has already been received, the data packet interception unit 103 discards the packet received from the MAC processing unit 106.

  Further, when the content distribution control unit 101 receives a packet via the packet transmission / reception unit 107, the MAC processing unit 106, and the network processing unit 105, the content distribution control unit 101 checks whether the received packet is an end message (step A12). .

  If the received packet is not an end message, the content distribution control unit 101 returns to the process of step A11 and causes the data packet interception unit 103 to continuously receive the data packet in the intercept mode.

  When the received packet is an end message, the content distribution control unit 101 causes the content restoration unit 104 to restore the content using the data block received by the data packet interception unit 103. At this time, the content distribution control unit 101 confirms whether there is an intercept failure data block (step A13). Whether there are interception failure data blocks is determined, for example, when there are not enough data blocks constituting the content, for example, when the received block ID is not a continuous value, there is an interception failure data block.

  If there is no interception failure data block, the content distribution control unit 101 assembles the received data block, causes the content restoration unit 104 to restore the content (step A14), and ends the process.

  On the other hand, when there is an interception failure data block, the content distribution control unit 101 notifies the content restoration unit 104 of information on the interception failure data block. When the information on the interception failure data block is notified from the content restoration unit 104, the content distribution control unit 101 generates a retransmission request for requesting retransmission of the interception failure data block, and sends the retransmission request to the network processing unit. 105, and transmits to the transmission terminal 1 via the MAC processing unit 106 and the packet transmitting / receiving unit 107 (step A15). Since the retransmission request transmission process is the same as the content request transmission procedure in step A1 shown in FIG. 3, the description thereof is omitted here.

  Receiving terminal 10 receives all interception failure data blocks retransmitted from the transmitting terminal (step A16), assembles data blocks by content distribution control unit 101, causes content restoring unit 104 to restore the content, and ends the process. . The interception failure data block may be retransmitted using an existing communication protocol such as TCP or TCP / IP, or may be retransmitted in the shared communication mode. When resending an intercept failure data block in the carpool communication mode, the process of step A16 shown in FIG. 5 is the same as the content reception process (steps A1 to A16) in the communication terminal 100 of the present embodiment.

  Next, the operation when the communication terminal 100 according to the present embodiment transmits content will be described with reference to FIGS. 2 and 6 to 7.

  FIG. 6 is a flowchart showing an example of a processing procedure at the time of content transmission of the communication terminal shown in FIG. 2, and FIG. 7 is a flowchart showing an example of a processing procedure of step B5 shown in FIG.

  As shown in FIG. 6, when the transmission terminal 1 receives a content request by the packet transmission / reception unit 107, the content request is output to the content distribution control unit 101 via the MAC processing unit 106 and the network processing unit 105 (step B1). ).

  The content distribution control unit 101 counts the number of content requests including different terminal IDs among the content requests received within a preset predetermined time, so that the communication terminal 100 that desires to receive the same content is preset. It is confirmed whether or not the threshold value is exceeded (step B2).

  When the number of communication terminals 100 that desire to receive the same content is smaller than the threshold value, the transmission terminal 1 stores a specific value (for example, “1111”) in the representative terminal ID field of the content reply, and receives the reception terminal 10. After transmitting the content reply to the destination, the content is transmitted to the receiving terminal 10 according to TCP, TCP / IP, etc. (normal mode) (step B3). In this case, the transmission terminal 1 distributes the content according to TCP, TCP / IP, or the like until the reception terminal 10 completes reception of all data blocks constituting the content.

  When the number of communication terminals 100 that desire to receive content is equal to or greater than the threshold value, the transmission terminal 1 determines that the content distribution control unit 101 transmits content in the carpool communication mode, and receives from the reception terminal 10 that has transmitted the content request. A representative terminal is selected according to a predetermined selection method (step B4).

  When the representative terminal is selected, the transmission terminal 1 proceeds to the process of step B5 and transmits the content in the carpool communication mode. In step B5, the transmission terminal 1 executes processing according to the procedure shown in FIG. 7, for example.

  When the transmission terminal 1 transmits content in the carpool communication mode, the content distribution control unit 101 stores the terminal ID of the reception terminal 10 selected as the representative terminal in the field of the representative terminal ID of the content reply, and the representative terminal ID The included content reply is broadcast to all receiving terminals 10 that have transmitted the content request via the network processing unit 105, the MAC processing unit 106, and the packet transmitting / receiving unit 107 (step B6).

  When the content distribution control unit 101 outputs the content reply to the network processing unit 105, the MAC address indicating the destination of the packet included in the packet transmitted to the representative terminal can be intercepted by other receiving terminals 10 (for example, , The broadcast address) is instructed to the MAC address conversion unit 102. The MAC address conversion unit 102 executes a MAC address conversion process in accordance with an instruction from the content distribution control unit 101 (step B7).

  Thereafter, the transmission terminal 1 transmits the content to the representative terminal according to a communication protocol such as TCP or TCP / IP (step B8). When the transmission of the content to the representative terminal is completed, the transmission terminal 1 broadcasts an end message and notifies all the reception terminals 10 that are intercepted of the distribution of the content (step B9). Since the end message transmission process is the same as the content request transmission procedure in step A1 shown in FIG. 3, the description thereof is omitted here.

  Next, the transmitting terminal 1 confirms whether or not a retransmission request has been received from a receiving terminal 10 (receiving terminal being intercepted) other than the representative terminal within a predetermined time set in advance by the content distribution control unit 101 (Step S1). B10).

  When the retransmission request is not received from the receiving terminal 10 that is being intercepted, the transmitting terminal 1 ends the process.

  When receiving a retransmission request from the receiving terminal 10 that is intercepted, the transmitting terminal 1 retransmits the data block requested to the receiving terminal 10 that has transmitted the retransmission request (step B11). The interception failure data block may be retransmitted using an existing communication protocol such as TCP or TCP / IP, or may be retransmitted in the shared communication mode. When resending an intercept failure data block in the carpool communication mode, the process of step B11 shown in FIG. 7 is the same as the content transmission process (steps B1 to B11) in the communication terminal 100 of the present embodiment.

  As described above, in the present invention, at the time of content distribution in the carpool communication mode, a data packet of content is transmitted from the transmission terminal 1 to the representative terminal by one-to-one communication, and the data packet can be intercepted by other reception terminals 10 as well. Thus, the MAC address indicating the transmission destination of the data packet is converted by the transmission terminal 1 into, for example, a broadcast address or a multicast address. Further, in the present invention, at the time of content distribution in the carpool communication mode, the content data packet is encrypted from the transmission terminal 1 to the representative terminal and transmitted using an encryption key for one-to-many communication such as broadcast or multicast. . In the one-to-one communication between the transmission terminal 1 and the representative terminal, a communication protocol such as TCP or TCP / IP is used as in the normal mode.

  Further, according to the present invention, the receiving terminal 10 that intercepts the data packet of the content operates in the promiscuous mode, for example, and receives the packet that does not have the IP address of the terminal as the destination. Can be intercepted. Having received the data packet, the receiving terminal 10 decrypts the content data by using an encryption key for one-to-many communication such as broadcast or multicast distributed in advance and reconstructs the content. Further, in the present invention, when the receiving terminal 10 fails to intercept the data block of the content, the receiving terminal 10 requests retransmission to the transmitting terminal 1 in units of data blocks that have failed to be intercepted, and transmits according to the retransmission request. An intercept failure data block can be received from the terminal 1.

  Therefore, according to the present invention, the encryption key used for one-to-many communication and one-to-one communication is different as in WPA, WPA2, etc., and encryption using a different encryption key for each communication partner is also used in one-to-one communication. Even in a communication network using a scheme, the same content can be transferred from the sending terminal 1 to the representative terminal using another reliable transport protocol such as TCP or TCP / IP The receiving terminal 10 can also receive the data.

  Accordingly, it is possible to distribute content by a highly reliable communication method while improving distribution efficiency.

  In the present embodiment, an example in which TCP or TCP / IP is used for one-to-one communication between the transmission terminal 1 and the representative terminal is shown. However, the communication protocol between the transmission terminal 1 and the representative terminal is TCP or TCP / IP. The communication protocol is not limited, and other reliable communication protocols such as UDP (User Datagram Protocol) to which a retransmission function is added may be used.

  Further, in the present embodiment, an example in which one representative terminal is fixedly selected when the transmission terminal 1 distributes content in the carpool communication mode is shown, but the transmission terminal 1 selects a plurality of representative terminals. May be. In this case, for example, the representative terminal may be changed every time a predetermined amount of content data is transmitted.

  Furthermore, although the example in which each communication terminal 100 transmits and receives content by wireless communication has been described in the present embodiment, content may be transmitted and received between the communication terminals 100 by wired communication.

  Further, in the present embodiment, the example in which content is directly transmitted from the transmission terminal 1 to the reception terminal 10 has been described, but information transmitted and received between the transmission terminal 1 and the reception terminal 10 is transmitted between the transmission terminal 1 and the reception terminal 10. Various relay devices (routers, bridges, access points, etc.) to be relayed may be inserted. In that case, the content delivery control unit 101, the MAC address conversion unit 102, the data packet interception unit 103, the content restoration unit 104, the network processing unit 105, and the MAC processing unit 106 shown in FIG. Also, the function of the packet transmitting / receiving unit 107 may be provided.

  In the present embodiment, the transmission terminal 1 uses the end message to notify the other receiving terminal 10 of the end of communication with the representative terminal. However, the end of communication between the transmitting terminal 1 and the representative terminal is described. Even if the end message is not used, it is possible to know at the receiving terminal 10 other than the representative terminal. For example, the receiving terminal 10 other than the representative terminal may determine that the communication between the transmitting terminal 1 and the representative terminal is finished when the representative terminal detects that the last data block has been received from the transmitting terminal 1. Alternatively, the receiving terminal 10 other than the representative terminal calculates the communication rate and the remaining communication data size between the transmitting terminal 1 and the representative terminal, and the time when the communication between the transmitting terminal 1 and the representative terminal ends based on the calculation result. And the end of communication may be determined when the estimated time has passed (timeout).

  In the present embodiment, each receiving terminal 10 receives content from one transmitting terminal, but the receiving terminal 10 may change the communication terminal 100 that receives the content. For example, when the interception of the content data in the first processing cycle in the intercept mode is completed and retransmission of the interception failure data block is requested, the communication terminal 100 that requests the retransmission first communicates with the communication terminal 100 that requested the transmission of the content There is no need to re-send, and another communication terminal 100 that holds the content may request retransmission.

  Further, in the present embodiment, the ID (or IP address) of the representative terminal is notified to the receiving terminal 10 using the content reply, and the receiving terminal 10 determines the normal mode, the representative based on the ID field value of the representative terminal. Although the example in which the reception process is executed in the mode or the intercept mode is shown, the ID (or IP address) of the representative terminal or the like may be notified to the receiving terminal 10 using a dedicated control message provided in advance. In that case, the content reply may have a function of notifying that the content request from the reception terminal 10 has been correctly received by the transmission terminal 1.

Next, embodiments of the present invention will be described with reference to the drawings.
(First embodiment)
FIG. 8 is a block diagram showing the configuration of the first embodiment of the content distribution system of the present invention.

  The content distribution system of the first embodiment is configured to include a transmission terminal 11, a reception terminal 101, and a reception terminal 102. The transmission terminal 11, the reception terminal 101, and the reception terminal 102 constitute a communication network that employs an encryption method such as WPA or WPA2.

  In the following, it is assumed that the transmission terminal 11 has the content A and the reception terminals 101 and 102 receive the content A. Further, the content request standby time is set to 100 ms, and the threshold value of the number of content requests for determining whether or not to operate in the carpool communication mode is set to “2”. Further, it is assumed that the representative terminal randomly selects one receiving terminal 10 from among the receiving terminals 10 that have transmitted the content request. The ID of the receiving terminal 101 is “0001”, and the ID of the receiving terminal 102 is “0010”. The IP address of the receiving terminal 101 is “192.168.0.101”.

  First, the operation when content is distributed from the transmission terminal 11 to the reception terminals 101 and 102 will be described.

  When the content A desired to be received is designated by the user, the reception terminal 101 and the reception terminal 102 transmit a content request for requesting transmission of the content A to the transmission terminal 11 (step A1 in FIG. 3). The transmission terminal 11 receives the content request transmitted from the reception terminals 101 and 102 (step B1 in FIG. 6). Here, it is assumed that the transmission terminal 11 has received the content requests from the reception terminal 101 and the reception terminal 102 within the standby time of 100 ms.

  Since the number of content requests is equal to or greater than the threshold value “2”, the transmission terminal 11 determines to transmit content in the carpool communication mode, and randomly selects one representative terminal from the reception terminals 101 and 102 ( Step B4 in FIG. Here, the receiving terminal 101 is selected as the representative terminal. Further, the transmission terminal 11 broadcasts a content reply including the representative terminal ID “0001” to notify the reception terminals 101 and 102 that the content is transmitted in the carpool communication mode (step B6 in FIG. 7).

  When receiving the content reply from the transmission terminal 11 (step A2 in FIG. 3), the receiving terminal 101 confirms whether the content is distributed in the carpool communication mode (step A3 in FIG. 3). Here, since the field of the representative terminal ID included in the received content reply is not a specific value (for example, “1111”), the receiving terminal 101 determines that the transmitting terminal 11 distributes the content in the carpool communication mode. Further, the receiving terminal 101 determines that the own terminal is selected as the representative terminal because the value of the field of the representative terminal ID included in the content reply matches the ID of the own terminal (step A5 in FIG. 3). Thereafter, the receiving terminal 101 operates in the representative mode and receives the content transmitted from the transmitting terminal 1 (step A6 in FIG. 3).

  On the other hand, when receiving the content reply from the transmitting terminal 11 (step A2 in FIG. 3), the receiving terminal 102 checks whether or not the content is distributed in the shared communication mode (step A3 in FIG. 3). Here, since the field of the representative terminal ID included in the received content reply is not a specific value (for example, “1111”), the receiving terminal 102 determines that the transmitting terminal 11 distributes the content in the carpool communication mode. Further, the receiving terminal 102 determines that the own terminal is not the representative terminal because the value of the representative terminal ID field included in the content reply does not match the ID of the own terminal (step A5 in FIG. 3). Thereafter, the receiving terminal 102 operates in the intercept mode and intercepts content transmitted from the transmitting terminal 1 to the receiving terminal 101 (step A7 in FIG. 3).

  The transmission terminal 11 converts the MAC address indicating the destination of the data packet to be transmitted to the representative terminal (reception terminal 101) from the MAC address of the representative terminal (reception terminal 101) to a broadcast address when distributing content. Specifically, the MAC address can be converted using an OS command. For example, when the transmission terminal 11 is a Windows (registered trademark) terminal, it is transmitted to the reception terminal 101 by executing “arp -s 192.168.0.101 FF-FF-FF-FF-FF-FF” at a command prompt or the like. The MAC address indicating the destination of the data packet can be converted into a broadcast address (step B7 in FIG. 7). As a result, the receiving terminal 102 can intercept a data packet transmitted from the transmitting terminal 11 to the receiving terminal 101.

  Here, it is assumed that the transmission terminal 11 divides the content A into the data block A1 and the data block A2. In this case, the transmission terminal 11 starts transmission by dividing the data block A1 into at least one data packet using the TCP / IP to the reception terminal 101 which is the representative terminal (step B8 in FIG. 7).

  When receiving the data packet of the data block A1 from the transmitting terminal 11 (step A8 in FIG. 4), the receiving terminal 101 assembles the data block A1 from the received data packet (step A9 in FIG. 4).

  The receiving terminal 102 receives the data packet transmitted from the transmitting terminal 11 to the receiving terminal 101 in the intercept mode, and assembles the data block A1 from the received data packet (step A11 in FIG. 5).

  Subsequently, the transmitting terminal 11 transmits the data packet of the data block A2 to the receiving terminal 101, and the receiving terminal 101 assembles the data block A2 from the received data packet. Here, it is assumed that the receiving terminal 102 cannot normally receive the data block A2 transmitted from the transmitting terminal 11 due to deterioration of the communication environment or the like.

  In this case, since all the data blocks are prepared, the receiving terminal 101 restores the content A (step A10 in FIG. 4). At this stage, since the transmitting terminal 11 has finished transmitting all data blocks of the content A to the receiving terminal 101 that is the representative terminal, the transmitting terminal 11 broadcasts an end message and informs the receiving terminal 102 that the content distribution in the shared communication mode has ended. (Step B9 in FIG. 7).

  Receiving the end message, the receiving terminal 102, when detecting the end of the carpool communication mode (step A12 in FIG. 5), checks whether there is an intercept failure data block (step A13 in FIG. 5). Here, since the interception of the data block A2 has failed, the receiving terminal 102 transmits a retransmission request to the transmitting terminal 11 to retransmit the data block A2 (step A15 in FIG. 5).

  When receiving the retransmission request for the data block A2 from the receiving terminal 102, the transmitting terminal 11 retransmits the data block A2 requested by the receiving terminal 102 (step B11 in FIG. 7).

  The receiving terminal 102 receives the data block A2 retransmitted from the transmitting terminal 11 (step A16 in FIG. 5), and assembles the data blocks A1 and A2 and restores the content A when they are ready.

In this way, the transmission terminal 11 ends the distribution of content to the reception terminals 101 and 102.
(Second embodiment)
FIG. 9 is a block diagram showing the configuration of the second embodiment of the content distribution system of the present invention.

  As shown in FIG. 9, the content distribution system of the second embodiment includes a transmission terminal 2 that is a communication terminal that transmits content, a plurality of reception terminals 20 that are communication terminals that receive content, and a transmission terminal 2. The access point 30 is a bridge that relays data transmitted and received between the receiving terminals 20.

  The content distribution system according to the second embodiment is different from the content distribution system according to the first embodiment in that an access point 30 is inserted between the transmission terminal 2 and the reception terminal 20. The configurations and operations of the transmission terminal 2 and the reception terminal 20 are the same as those of the transmission terminal 11 and the reception terminals 101 and 102 of the first embodiment, and thus description thereof is omitted. The transmission terminal 2 and the access point 30 may be connected so as to be able to transmit and receive information through wireless communication, or may be connected so as to be able to transmit and receive information through wired communication.

  In the content distribution system of the second embodiment shown in FIG. 9, the content distribution control unit 101, MAC address conversion unit 102, data packet interception unit 103, content restoration unit 104, network shown in FIG. The functions of the processing unit 105, the MAC processing unit 106, and the packet transmission / reception unit 107 may be provided.

  Although the present invention has been described with reference to the embodiments, the present invention is not limited to the above embodiments. Various modifications that can be understood by those skilled in the art can be made to the configuration and details of the present invention within the scope of the present invention.

  This application claims the priority on the basis of Japanese Patent Application No. 2012-262933 for which it applied on November 30, 2012, and takes in those the indications of all here.

Claims (10)

A representative terminal is selected from a plurality of receiving terminals that request distribution of the same information in accordance with a predetermined selection method, and the information is communicated to the representative terminal by one-to-one communication using a reliable communication protocol. Is transmitted to the representative terminal including the information, the first MAC address indicating the transmission destination of the packet included in the packet transmitted to the representative terminal can be received by a receiving terminal other than the representative terminal. A transmitting terminal that converts the MAC address to 2 and transmits the MAC address;
When the transmission terminal is notified that the representative terminal is selected, the information is received from the transmission terminal through the one-to-one communication, and the transmission terminal is notified that the representative terminal is not selected. Then, the information transmitted from the transmitting terminal to the representative terminal is intercepted, and the information that could not be intercepted is one or more receiving terminals that request the terminal having the same information again,
An information distribution system.   The information distribution system according to claim 1, wherein the second MAC address is a broadcast address.   The information distribution system according to claim 1, wherein the second MAC address is a multicast address. The transmitting terminal and the receiving terminal are:
The encryption key used in the one-to-one communication and the one-to-many communication is different, and when the information is transmitted / received in the one-to-one communication, an encryption method using a different encryption key for each communication partner is used,
The transmitting terminal encrypts information to be transmitted to the representative terminal with an encryption key used in the one-to-many communication,
The information delivery system according to any one of claims 1 to 3, wherein the receiving terminal includes an encryption key used in the one-to-many communication in advance.   The information distribution system according to claim 4, wherein the encryption method is WPA or WPA2.   6. The information distribution system according to claim 1, wherein TCP or TCP / IP is used as the communication protocol for the one-to-one communication. The transmitting terminal and the receiving terminal are:
The information distribution system according to claim 1, wherein the information is transmitted / received by wireless communication. The sending terminal
Select a representative terminal from among a plurality of receiving terminals that request distribution of the same information according to a predetermined selection method,
When transmitting the information in a one-to-one communication using a reliable communication protocol to the representative terminal, a first destination indicating the transmission destination of the packet included in the packet transmitted to the representative terminal including the information 1 MAC address is converted to a second MAC address that can be received by the receiving terminal other than the representative terminal, and transmitted,
A plurality of receiving terminals that receive the information from the transmitting terminal,
When notified that the representative terminal has been selected by the transmitting terminal, the information is received from the transmitting terminal by the one-to-one communication,
When it is notified from the transmitting terminal that the representative terminal is not selected, the information transmitted from the transmitting terminal to the representative terminal is intercepted, and the information that cannot be intercepted is again transmitted to the terminal having the same information. The information distribution method to request. A communication terminal that operates as a transmission terminal that transmits information or a reception terminal that receives the information,
When operating as the transmitting terminal, a representative terminal is selected from a plurality of receiving terminals that request distribution of the same information according to a predetermined selection method, and a reliable communication protocol is used for the representative terminal. When the information is transmitted by the one-to-one communication and operates as the receiving terminal, if the representative terminal is notified of the selection from the transmitting terminal that transmits the information, the transmitting terminal transmits the one-to-one A content distribution control unit for receiving the information by communication;
When operating as the transmitting terminal, a receiving terminal other than the representative terminal can receive the packet with the first MAC address indicating the transmission destination of the packet included in the packet transmitted to the representative terminal including the information. A MAC address conversion unit for converting to a second MAC address;
When operating as the receiving terminal, when notified from the transmitting terminal that the representative terminal is not selected, a data packet intercepting unit that intercepts the information transmitted from the transmitting terminal to the representative terminal;
A communication terminal. A program for operating a communication terminal as a transmission terminal for transmitting information or as a reception terminal for receiving the information,
When operating the communication terminal as the transmission terminal,
In accordance with a predetermined selection method, the representative terminal is selected from a plurality of receiving terminals that request distribution of the same information,
A first MAC address indicating a transmission destination of the packet included in a packet to be transmitted to the representative terminal including the information is transmitted to the representative terminal by one-to-one communication, and other than the representative terminal The receiving terminal converts the packet to a second MAC address that can receive the packet, and transmits the packet.
When operating the communication terminal as the receiving terminal,
When notified that the representative terminal has been selected by the transmitting terminal, the information is received from the transmitting terminal by the one-to-one communication,
When it is notified from the transmitting terminal that the representative terminal is not selected, the information transmitted from the transmitting terminal to the representative terminal is intercepted, and the information that cannot be intercepted is again transmitted to the terminal having the same information. A program for requesting.

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