JP2008109286A - Ad hoc network, terminal, radio base station, communications system, communication method, and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an ad hoc network where the resources of a spread code are not depleted such that the base station to which a terminal belongs manages the spread code to each terminal, even in the case of communicating to another base station. <P>SOLUTION: A terminal 101 is accommodated in the ad hoc network where each terminal communicates mutually with its own spread code. Each terminal belongs also to a mobile communications network other than the ad hoc network, and carries out broadcasting of information to all the terminals which belong to the area of a radio base station 201 of the mobile communications network through the ad hoc network. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a communication technique between terminals in an ad hoc network.

  Conventionally, in an ad hoc network, by providing a terminal with a data relay function, even a terminal in a place where data cannot be directly transferred from a base station can obtain information via the terminal.

  However, since the position of each terminal is not fixed, the communication path is disconnected due to the movement of the terminal, and it is necessary to cope with the reconstruction of the path and the maintenance of a plurality of paths, such as DSR (Dynamic Source Routing) and AODV ( Many methods such as Ad hoc ON-Demand Distance Vector routing have been developed.

  However, in various methods, the control algorithm is complicated, and the optimum route may not be selected.

  In the conventional ad hoc network, it is difficult to maintain the quality of the message due to the sudden loss of the optimum route, but this can be overcome by propagating the message to all terminals in the base station.

  In addition, a conventional ad hoc network is easy when a malicious third party obtains information because a communication path is established between the terminals.

  Here, it is a communication terminal that enables group communication of a wireless ad hoc network with a high frequency of connection recombination due to movement of the communication terminal compared to the transmission frequency of the communication packet, together with its own station deadline belonging to the group, The identification information and the expiration date information of the adjacent terminal are stored in the group management table, the self identification information is added, and the group expiration information is added based on the expiration date information stored in the group management table. By providing a transmitting / receiving device, it is possible to communicate bidirectionally to parties consisting of unspecified terminals that share a topic with highly mobile on-demand communication, and traffic within the network within the same group. Has been proposed to reduce the power consumption of the communication terminal (see, for example, Patent Document 1).

In addition, an ad hoc communication unit that constructs an ad hoc network with other wireless communication devices existing in the vicinity and communicates with the other wireless communication devices wirelessly is provided, and the ad hoc communication unit communicates with other wireless communication devices. In this case, the same TDD-CDMA system as that used in the mobile communication network is adopted and the same frequency band is used. In the communication area of each base station, a spreading code orthogonal to the spreading code used for communication with the base station is ad hoc. By using the same frequency band using the same TDD-CDMA system for communication in ad hoc networks and mobile communication networks, it is possible to cause mutual interference between networks as much as possible by using it in communication within the network. A technique that can be suppressed has been proposed (see, for example, Patent Document 2).
JP 2001-285345 A JP 2005-333325 A

  However, since the TDD-CDMA method common to the communication method and ad hoc is adopted in the above-described conventional example, there is no problem when the number existing in the ad hoc is small, but when the number increases, limited spreading code resources are present. There was a problem of exhaustion.

  The present invention has been made to solve the above-described problems. The purpose is to provide an ad hoc network in which resources of spreading codes are not depleted by managing spreading codes for each terminal by the base stations to which the terminals belong even when communicating with another base station.

In order to solve the above problems, the present invention is an ad hoc network accommodating a plurality of terminals,
Each terminal communicates with each other by a unique spreading code,
Further, each terminal belongs to a mobile communication network different from the ad hoc network,
Each terminal provides an ad hoc network that broadcasts information to all terminals belonging to the radio base station area of the mobile communication network through an ad hoc network.

Further, the present invention is a terminal accommodated in an ad hoc network,
Each terminal communicates with each other by a unique spreading code,
Further, each terminal belongs to a mobile communication network different from the ad hoc network,
Each of the terminals provides a terminal that broadcasts information through an ad hoc network to all terminals belonging to the radio base station area of the mobile communication network.

Further, the present invention is a terminal accommodated in an ad hoc network,
Each terminal communicates with each other by a unique spreading code,
Further, each terminal belongs to a mobile communication network different from the ad hoc network,
Each of the terminals provides a radio base station that can broadcast information over an ad hoc network to all terminals belonging to the radio base station area of the mobile communication network.

Further, the present invention is a communication system including an ad hoc network accommodating a plurality of terminals and another mobile communication network,
Each terminal communicates with each other by a unique spreading code,
Further, each terminal belongs to the mobile communication network different from the ad hoc network,
Each terminal provides a communication system that broadcasts information to all terminals belonging to the radio base station area of the mobile communication network through an ad hoc network.

Further, the present invention is a communication method using an ad hoc network accommodating a plurality of terminals and another mobile communication network,
Each terminal communicates with each other by a unique spreading code,
Further, each terminal belongs to the mobile communication network different from the ad hoc network,
Each terminal provides a communication method for broadcasting information to all terminals belonging to the radio base station area of the mobile communication network through an ad hoc network.

  ADVANTAGE OF THE INVENTION According to this invention, even when communicating with another base station, the base station to which it belongs manages the spreading code with respect to each terminal, and can provide the ad hoc network where the resource of a spreading code is not exhausted.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In addition, the same code | symbol is attached | subjected to the common part in each figure.

  First, referring to FIG. 1, a communication system according to the present embodiment will be described. The outline of the configuration is that an ad hoc network is used to transmit information to all mobile phones belonging to a specific base station, and the other party does not leak that information to others using a specific spreading code. It can be decrypted. Also, information transmission to adjacent terminals is performed without interference by a spreading code based on adjacent information.

  Next, the structure of messages sent and received will be described. FIG. 2 shows the structure of a message sent and received.

  The message is composed of “header information” of “communication destination type” and “notification destination number” and “information bits” obtained by multiplying information by spreading codes corresponding to each notification destination, group, etc. .

This “message” is finally converted to 2 bits. For simplicity, for example, if the first 2 bits, the communication destination type is 5 bits, and the information bit is 8 bits, each message is
Terminal: 01 01101 11001001 (meaning, for example, information 1 is sent to the phone number 01101 and spread code 11001001)
Contract group: 10 00011 10101100 (meaning, for example, information 0 is transmitted to the spread code 01010011 to the contract group 00001)
Simultaneous notification: 11 00000 11111111 (meaning, for example, send information 1 by simultaneous notification)
Base station: 00 11111 011101110 (meaning, for example, for base stations, initial spreading code * own terminal telephone number is 011101110)
It becomes.

  Next, the in-terminal information map will be described. FIG. 3 shows an information map in each terminal.

  Configuration consists of own terminal phone number, own terminal spreading code, message storage area at own terminal, spreading code for surrounding of own terminal, multiple contract (registered) contract group numbers, and contract group The message storage area, spreading codes for a plurality of peripheral terminals, and a temporary area are composed of a destination telephone number, a destination spreading code, and a message area for the destination terminal.

  The individual areas are described in the following explanation.

  Hereinafter, a communication method to the peripheral terminal will be described. First, the spread code setting and transmission for peripheral terminals will be described.

  In accordance with the peripheral terminal spreading code setting flowchart of FIG. 4, an orthogonal code (or a code close to it) different from the peripheral terminal is generated from each peripheral terminal information, and the intra-terminal information map is spread for the periphery of its own terminal Save to sign. The message is transmitted using the code. The orthogonal code is preferably a Walsh function or the like that provides complete orthogonality.

  For example, for simple explanation, when a 3-bit 101 message is transmitted using an orthogonal spreading code 0110 based on a 4-bit Walsh function, 0110 1001 0110 is obtained.

  Further, the peripheral terminal spreading codes around the terminal are stored in the peripheral terminal spreading codes 1, 2,... In the intra-terminal information map.

  A reception method from a peripheral terminal will be described. Information from the peripheral terminal is decoded from orthogonal spread from the synthesized signal, thereby generating a message. For the sake of explanation, an example of decoding by 4-bit Walsh conversion is shown in FIG. Note that 64-bit Walsh conversion or the like may be used.

As can be seen in FIG.
From terminal 1, spreading code W1 (0000), message 1
From terminal 2, spread code W2 (0101), message 0
From terminal 3, spread code W3 (0011), message 0
From terminal 4, spread code W4 (0110), message 1
Suppose that a composite signal is received.

The combined signal is read as 1 for +1 and 0 for -1.
1 bit
(-1) * (+ 1) + (-1) * (-1) + (-1) * (-1) + (-1) * (+ 1) = 0,
2 bit
(-1) * (+ 1) + (+ 1) * (-1) + (-1) * (-1) + (+ 1) * (+ 1) = 0,
3 bit
(-1) * (+ 1) + (-1) * (-1) + (+ 1) * (-1) + (+ 1) * (+ 1) = 0,
4th bit
(-1) * (+ 1) + (+ 1) * (-1) + (+ 1) * (-1) + (-1) * (+ 1) =-4,
Therefore, (0,0,0, -4).

  Since decoding knows the Walsh functions of all the peripheral terminals from the peripheral terminal spreading codes 1, 2,... By the intra-terminal information map, it uses them.

That means
From terminal 1
(0,0,0, -4) (-1, -1, -1, -1) / 4 = + 1-> 1
From terminal 2
(0,0,0, -4) (-1,1, -1,1) / 4 = -1-> 0
From terminal 3
(0,0,0, -4) (-1, -1,1,1) / 4 = -1-> 0
From terminal 4
(0,0,0, -4) (-1,1,1, -1) / 4 = + 1-> 1
And can be decrypted respectively.

  FIG. 6 shows a message transmission flowchart for explaining the message transmission flowchart.

  It consists of a flowchart at the time of terminal registration with the base station, a flowchart for obtaining a transmission destination spread code, a flowchart for sending a message from its own terminal to the transmission destination, and a transmission message transmission flowchart.

  The feature is that since the message is encoded by the spreading code of the transmission destination at the transmission destination, it is prevented from being decoded by other than the receiving terminal or the base station, and the security of the message is enhanced. The flow of the various messages will be described in a separate table.

  6) A message reception flowchart will be described. A message reception flowchart is shown in FIG.

  Based on the header information of the message, it is determined whether it is a received message, a contract group message, a simultaneous notification message, or a forward message, and each process is performed. In particular, the received message, the contract group message, and the simultaneous notification message are received for the peripheral terminals, and the calculation is weighted according to the arrival degree, that is, the arrival order, thereby increasing the reliability of the message.

  The flow of the various messages will be described in a separate table.

  7) A flowchart of the base station to which the transmitting terminal belongs will be described. A flowchart of the base station to which the transmitting terminal belongs is shown in FIG.

  The main configuration is processing when new terminal registration, new terminal spreading code sending, accompanying contract group spreading information sending, destination spreading code sending, and transmission destination do not exist in the base station association.

  The flow of the various messages will be described in a separate table.

  8) A flow chart of the base station when the transmitting terminal is outside the base station to which the terminal belongs is described. FIG. 9 shows a flowchart of the base station when the transmitting terminal is outside the base station to which it belongs.

  The message flow will be described in a separate table.

  FIG. 10 shows a table from own terminal power ON to own terminal base station registration and specific spreading code reception.

  Further, it is assumed that a specific initial spreading code is given at the time of purchasing the terminal, and that it is known to any base station.

  After turning on the power, set the spreading code for the peripheral terminal, set the header information as the base station, consider the own terminal telephone number as a message, create a message with the initial terminal spreading code, and for the peripheral terminal, the own terminal spreading code and Multiply transmission.

  Information propagates through the relay terminal and reaches the base station A (the base station to which the terminal belongs).

  The base station A decodes with the initial spreading code, registers the telephone number with the base station A, sets the spreading code unique to the terminal at the same time, attaches the registered telephone number to the header information, and sets the corresponding spreading code as the initial spreading code. Is encoded, spread by a base station code function for peripheral terminals, and transmitted.

  Information propagates through the relay terminal, a message arrives at the terminal, and the spreading code for the terminal is decoded from the initial spreading code.

  A table up to the acquisition of the transmission destination specific spreading code information is shown in FIG.

  The base information is set as the base station in the header information, the telephone number of the own terminal is entered in the notification destination telephone number, the transmission destination telephone number is regarded as a message, and a multiplication message is created by the own terminal spreading code. Multiplicative transmission, information propagates through the relay terminal, and reaches the base station A (the base station to which the terminal belongs).

  The base station A confirms whether the transmission destination terminal is in the base station. If there is, the notification destination telephone number is attached to the header information, and the transmission destination spreading code is encoded with the notification destination spreading code. The other base station is inquired, and if it is in the other base station, the notification destination telephone number is attached to the header information, and the base station spreading code is encoded by the notification destination spreading code.

  Next, it spreads and transmits with the code function for base stations for peripheral terminals.

  Information propagates through the relay terminal, a message arrives at its own terminal, performs decoding reception processing, decodes by its own terminal spreading code, and obtains a destination spreading code.

  FIG. 12 shows a table for message transmission to the transmission destination.

  Multiply the destination spreading code and the message to create the outgoing message, for the peripheral terminal, multiply the self-terminal spreading code and transmit the information through the relay terminal, and if the destination terminal is in the base station, the destination The terminal performs decoding reception processing, decodes it with the receiving terminal spreading code, and obtains a message.

  When the destination terminal is not in the base station, the base station A receives the message, transmits the telephone number and the message to the target base station, the target base station receives the telephone number and the message, and sets the notification destination telephone number in the header information. In addition, information is encoded by a corresponding spreading code to form a message, spread and transmitted by a base station code function for peripheral terminals, information is propagated through a relay terminal, and a message is received.

  A contract group transmission table is shown in FIG.

  From the terminal or the base station, multiply the contract group spreading code and the message, create an outgoing message, and for the peripheral terminal, transmit by multiplying with the own terminal spreading code, the terminal that is not subscribed to the contract group as a relay field terminal, The terminal that performs the transfer process and subscribes to the contract group performs the decode reception process, decodes it with the contract group spreading code, and simultaneously performs the transfer process.

  FIG. 14 shows a table for simultaneous notification transmission.

  From the terminal or the base station, the header is notified all at once, a transmission message is created, and the transmission message is multiplied with the spread code for the peripheral terminal. Since it is not subjected to spreading coding other than the peripheral terminal spreading process for simultaneous notification, any terminal does not need to be decoded and receives it as it is and performs a forwarding process.

  As described above, the present embodiment has the following effects.

  By propagating the message to all the terminals in the base station to which it belongs, the quality of the message can be maintained even when the optimum route is lost.

  Ad hoc networks are easy when a malicious third party obtains information because the communication path is between each terminal, but the messages are spread-coded for each terminal, providing excellent security. Yes.

  In addition, a complicated algorithm for selecting an optimum route is not required.

  In addition, the load on the base station is used only for registration and confirmation work for the notification within the contract group and the simultaneous notification, and the load on the base station can be reduced.

  In addition, because it is excellent for notification within the contract group in the base station and simultaneous notification, new notifications for disaster notifications (simultaneous notifications), contract groups (for example, notification of availability of elementary school excursions, etc.) Easy to provide.

  Each of the above-described embodiments is a preferred embodiment of the present invention, and various modifications can be made without departing from the scope of the present invention. For example, a process for realizing the function of each device may be performed by causing each device to read and execute a program for realizing the function of each terminal. Further, the program is transmitted to another computer system by a transmission wave via a computer-readable recording medium such as a CD-ROM or a magneto-optical disk, or via a transmission medium such as the Internet or a telephone line. Also good.

It is a figure explaining the communication system in this Embodiment in embodiment of this invention. FIG. 2 illustrates the structure of a message transmitted and received in the embodiment of the present invention. It is a figure showing the information map in each terminal in embodiment of this invention. It is a spreading code setting flowchart for peripheral terminals in the embodiment of the present invention. It is a figure which shows the example decoded by 4-bit Walsh conversion in embodiment of this invention. It is a message transmission flowchart in an embodiment of the invention. It is a message reception flowchart in embodiment of this invention. It is a flowchart of the base station to which the transmission terminal belongs in the embodiment of the present invention. It is a flowchart of the base station about the terminal which transmitted in embodiment of this invention outside an affiliated base station. 4 is a table from self-terminal power ON to self-terminal base station registration and specific spreading code reception in the embodiment of the present invention. It is a table | surface until transmission destination specific spreading code information acquisition in embodiment of this invention. It is a table of message transmission to the transmission destination in the embodiment of the present invention. It is a table of contract group transmission in an embodiment of the invention. It is a table of simultaneous notification transmission in the embodiment of the present invention.

Explanation of symbols

101 terminal 201 base station

Claims (6)

An ad hoc network that accommodates multiple terminals,
Each terminal communicates with each other by a unique spreading code,
Further, each terminal belongs to a mobile communication network different from the ad hoc network,
Each ad hoc network broadcasts information to all terminals belonging to a radio base station area of the mobile communication network via an ad hoc network. A terminal accommodated in an ad hoc network,
Each terminal communicates with each other by a unique spreading code,
Further, each terminal belongs to a mobile communication network different from the ad hoc network,
Each terminal broadcasts information via an ad hoc network to all terminals belonging to a radio base station area of the mobile communication network. A terminal accommodated in an ad hoc network,
Each terminal communicates with each other by a unique spreading code,
Further, each terminal belongs to a mobile communication network different from the ad hoc network,
A radio base station, wherein each terminal broadcasts information to all terminals belonging to the radio base station area of the mobile communication network through an ad hoc network. A communication system including an ad hoc network accommodating a plurality of terminals and another mobile communication network,
Each terminal communicates with each other by a unique spreading code,
Further, each terminal belongs to the mobile communication network different from the ad hoc network,
The communication system characterized in that each terminal broadcasts information to all terminals belonging to the radio base station area of the mobile communication network through an ad hoc network. A communication method using an ad hoc network accommodating a plurality of terminals and another mobile communication network,
Each terminal communicates with each other by a unique spreading code,
Further, each terminal belongs to the mobile communication network different from the ad hoc network,
The communication method characterized in that each terminal broadcasts information to all terminals belonging to a radio base station area of the mobile communication network through an ad hoc network.   A program for causing a computer to realize the function according to claim 2.

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