KR100586588B1 - Method for service connection establishment using the ad hoc routing in ad hoc network - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

The present invention relates to a service connection establishment method using an ad hoc routing technique in an ad hoc network.

2. The technical problem to be solved by the invention

The present invention relates to a service connection establishment method using an ad hoc routing technology for identifying an executable service between wireless terminals which are not adjacent to each other in an ad hoc network to enable mutual communication through a desired service. To provide a way.

3. Summary of Solution to Invention

The present invention provides a service connection establishment method in an ad hoc network composed of wireless terminals, wherein when a user requests an application service, the service initiation terminal has a path to the terminal capable of executing the application service that the user wants to use. A first step of confirming whether it is being maintained; A second step of broadcasting a service discovery packet to adjacent terminals using an ad hoc routing technique when the service discovery is necessary according to the check result of the first step; And a third step of, upon receiving a plurality of service discovery response packets from adjacent terminals, the service initiating terminal selecting a service terminal with reference to user information, and then transmitting service data to the corresponding service terminal.

4. Important uses of the invention

The present invention is used to set up a service connection in an ad hoc network.

Ad hoc network, wireless terminal, routing, routing, wireless LAN

Description

Method for service connection establishment using the ad hoc routing in ad hoc network}             

1 is a diagram illustrating a configuration of a general ad hoc network.

FIG. 2 is a diagram illustrating an embodiment of packet types required for processing an ad hoc mode inter-terminal service discovery and path failure used in the present invention. FIG.

3A and 3B are flowcharts of one embodiment of a service connection establishment method according to the present invention;

4A through 4C are flowcharts of one embodiment of a service connection resetting method according to the present invention;

* Explanation of symbols for the main parts of the drawings

10: wireless terminal

The present invention can execute the service by applying the ad hoc routing (Ad hoc routing) technology to communicate using the same service between the terminals that are not adjacent to each other in an ad hoc network consisting only of wireless terminals And a method for establishing a service connection for enabling mutual communication after discovering a terminal.

In general, an ad hoc network is a network composed only of wireless terminals 10, where a wired network is not established (for example, communication in a classroom, emergency rescue, or during war). , Wearable computing, etc.) can be configured easily. This is a communication network within a relatively narrow area range, which is a kind of wireless LAN system that is wireless rather than wired.

As shown in FIG. 1, an ad hoc network is composed of only a wireless terminal 10 for wirelessly connecting a network.

Intercom Period Special radio communications are called ad hoc networks.

Ad hoc networks enable device-to-device communication anytime, anywhere, without the need for a central system. In fact, the ad hoc network is not a new concept. However, the settings and usage and the communication devices used are completely new.

In the past, ad hoc networks were associated with communications on the battlefield or in disaster areas, but with the advent of the latest technologies like Bluetooth, the ad hoc network is now changing and its importance. It is also expected to grow even larger.

People carry portable devices such as laptops, cell phones, personal digital assistants (PDAs) and MPEG Audio Layer3 (MP3) players for personal or professional needs. Usually these devices are used independently. In other words, interworking between applications is not possible.

Commonly, an ad hoc network refers to a network formed without central administration, which is composed of wireless nodes that transmit packet data using an air interface. Nodes in this type of network can be used as routers or hosts, so they can send packets on behalf of other nodes and run user applications. The most attractive aspect of an ad hoc network is that it is completely independent of central control, giving users more freedom and flexibility in using the network.

The ad hoc network allows users to interwork with the communication period of the user, and also relays traffic between communication devices outside the communication range.

The inherent flexibility makes building an ad hoc network very easy. The concept of ad hoc network is best applied to the short-range personal user domain. An ad hoc network facilitates communication between communication devices of the same person and may enable communication between different user devices. The ability to configure small ad hoc networks through portable communication devices will facilitate the development of various applications based on ad hoc networks in the future.

However, when operating in the ad hoc mode (ad hoc mode), the existing wireless terminals perform a service discovery procedure only for adjacent terminals within the range of mutual propagation and establish a communication connection. Therefore, communication cannot be established between non-adjacent wireless terminals, and a service discovery procedure is not performed.

The present invention has been proposed to solve the above problems, and to identify the executable services between wireless terminals that are not adjacent to each other in an ad hoc network to enable mutual communication through a desired service. Its purpose is to provide a service connection establishment method using ad hoc routing technology.

In order to achieve the above object, the present invention provides a service connection establishment method in an ad hoc network composed of wireless terminals, wherein the service initiation terminal searches for a service capable of executing an application service to be used by a user. A first step of broadcasting a packet to adjacent terminals; A second step of the adjacent terminal discarding the duplicated service discovery packet and checking whether the service corresponding to the service code specified in the non-duplicated service discovery packet is executable; A third step of including the public user information recorded in the terminal in a service search response packet and sending it to the service initiation terminal if the service can be executed in the second step; If the service cannot be executed in the second step, adding a terminal address of the terminal to the other terminal by adding the terminal address of the service discovery packet; When the service initiation terminal receives a plurality of the service discovery response packets from the neighboring terminals as a result of the second to fourth steps, the service initiation terminal selects a service terminal with reference to user information, and then services A fifth step of transmitting data to the selected service terminal; A sixth step of generating, by the terminal detecting the failure of the path between the service initiation terminal and the destination terminal, a path failure notification packet to the service initiation terminal and discarding all untransmitted data; When the service initiation terminal receives the path failure notification packet, stopping transmission of data waiting to be transmitted and broadcasting a routing packet to the neighboring terminals to set a route to the corresponding destination terminal; An eighth step of the neighboring terminals discarding the duplicated routing packet and confirming whether a terminal address and a destination address of the duplicated routing packet match with each other; A ninth step of transmitting a routing response packet in the reverse order of the pass through terminal address in the received routing packet if it matches in the eighth step; A tenth step of broadcasting the received routing packet to other neighboring terminals if it does not match in the eighth step; And an eleventh step of, when the service initiation terminal receives the routing response packet, records a passing terminal address included in the routing response packet and then transmits data with reference to the passing terminal address.

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According to the present invention, after a terminal service search function based on an ad hoc routing function is added to a wireless terminal operating in an ad hoc mode, a list of terminals implementing a desired service can be obtained, and then an appropriate wireless terminal can be selected to establish a connection. .

According to the present invention, in a wireless ad hoc network composed of multiple hops, each wireless terminal may be used to establish a service connection to another terminal located in a network capable of executing the same terminal service regardless of whether they are adjacent to each other. Can be.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention provides a communication method for discovering a terminal capable of executing a desired application service and establishing a service connection in an ad hoc network composed of several hops.

Figure 2 shows the type and structure of packets required to handle the ad hoc mode inter-service discovery and path failure.

As shown in Fig. 2, in the present invention, each packet is uniquely identified by a source address and a path identifier.

The service discovery packet 21 is a packet used when the service initiation terminal needs to check the addresses of terminals supporting an application service to which the service is initiated.

The service discovery response packet 22 is transmitted in response to the service discovery packet 21 and is generated only by a terminal capable of executing the service specified in the service discovery packet 21.

The path failure notification packet 23 is generated by a terminal that detects a failure of a preset service connection and is used for the purpose of notifying the service initiation terminal of the path failure. The path fault notification packet 23 is forwarded in the reverse direction of the path through which the data packet is delivered.

The routing packet 24 is a packet sent to the destination terminal by the service initiating terminal notified of the path failure to recover the existing service connection.

The routing response packet 25 is generated by the destination terminal in response to the routing request, and is sent to the service initiation terminal to inform that the service connection between the service initiation terminal and the destination terminal can be reset.

Then, the type and structure of the packets required to process the service between the ad hoc mode terminal and the path failure will be described in more detail.

The service discovery packet 21 is generated by a service initiation terminal (a terminal initiating a service discovery procedure to establish a service connection). Here, since the destination address (the MAC address of the terminal to which the service initiation terminal requests the service connection, the destination address is not confirmed in the case of the service discovery packet) is not determined, it is input as the broadcast address. In addition, the service code (code identifying the service) identifies the application service that the user wants to connect to and is specified by the user's request. In addition, the pass-through terminal address (the MAC address list of terminals passing data from the service initiating terminal to the destination terminal, which is included in the data packet after routing) and used for source routing purposes is empty when the service discovery packet is generated. It is sent in the state, but the address of the terminal via the packet is added during the service discovery process.

The service search response packet 22 is sent by a terminal capable of executing the corresponding service among the terminals that receive the service search packet 21. Here, the source address (the MAC address of the service initiating terminal) and the path identifier (the sequence number generated and managed by the service initiating terminal to identify the service connection path, which is increased by one each time the service initiating terminal starts the service discovery procedure). Is the same as the source address and the path identifier of the received service discovery packet 21, and the destination address is inserted with the address of the responding terminal. In addition, user information is inputted with personal information of a user who is allowed to be disclosed in advance. In addition, the pass-through terminal address is inserted in the same manner as the pass-through terminal address of the received service discovery packet 21.

The path failure notification packet 23 is generated by the terminal that detects a link failure on the path identified by the source address and the path identifier. This packet is transmitted toward the service initiation terminal with reference to the pass-through terminal address of the received data packet.

The routing packet 24 is generated by the service initiating terminal notified of the path failure. Here, the source address is the address of the service initiation terminal, the destination address is the destination address of the path where the failure occurred, that is, the address of the service terminal found by the service search procedure, and the path identifier is a value of the path identifier used in the service search. It is increased by 1. In addition, the pass-through terminal address is sent empty when a routing packet is generated as in the case of a service search, but the address of the passing terminal is added in the process of finding a route to the destination terminal.

The routing response packet 25 is generated by the destination terminal. Here, the source address, the destination address, the route identifier, and the pass through terminal address are inserted in the same manner as the received routing packet 24.

Referring to FIGS. 3A and 3B, communication procedures required for service discovery between non-adjacent ad hoc mode terminals are described as operations in a service initiating terminal (see FIG. 3A) and operations in other terminals (see FIG. 3B). Explain separately.

As shown in FIG. 3A, the operation of the service initiation terminal will be described first. Upon requesting an application service by the user (301), the service initiation terminal has a path to the terminal capable of executing the application service that the user wants to use. Check whether it is maintained (302).

As a result of the check, if service discovery is necessary, the service discovery packet 21 is broadcasted to neighboring terminals (303), and then the service discovery timer is started (304) for the purpose of recognizing the failure of the service discovery. At this time, when the service discovery timer is being driven (304) and the service discovery response packet 22 is received (306), the service initiation terminal stops the service discovery timer (307). In this case, if one or more service discovery response packets 22 are received from different terminals, the service data transmission is started after selecting the appropriate service terminal with reference to the user information.

On the other hand, if no service search response packet 22 is received until the service search timer expires (305), the service search process is repeated a certain number of times. This search process can be terminated at the request of the user.

As a result of the check, if the service search is not necessary, transmission of the service data is started after selecting the appropriate service terminal with reference to the user information (308).

As shown in FIG. 3B, when the operation of the terminal other than the service initiation terminal is described, first, when the service discovery packet 21 is received from the service initiation terminal (311), the terminal receiving the service discovery packet 21 is the same. Check whether the packet has been received before (312).

As a result of the check, if it is the first reception, it is determined whether or not the service corresponding to the service code specified in the service discovery packet 21 is executable (313), and if so, the public user information recorded in the terminal is stored in the service discovery response packet ( 22 and sent to the service initiation terminal (314).

As a result of the check, if the service discovery packet is received in duplicate, the packet is discarded (315).

On the other hand, if the first received packet (312), but the service can not be executed (313), the terminal's address is added to the terminal via the service discovery packet 21, and forwarded to adjacent terminals (316).

Now, referring to FIGS. 4A to 4C, a process of detecting a failure of a path between a service initiation terminal and a destination terminal notifies the service initiation terminal of the failure and resets the service connection by the service initiation terminal to resume service. The operation of the fault detection terminal (see FIG. 4A), the operation of the service initiation terminal (see FIG. 4B), and the operation of the routing packet receiving terminal (see FIG. 4C) will be described.

As shown in FIG. 4A, the operation of the failure detection terminal will be described first. Upon detection of a link failure (401), the terminal that detects the failure of the link generates a path failure notification packet (23) immediately upon detection of service start. It transmits to the terminal (402). Thereafter, all data packets received after the packet is sent but not transmitted are discarded (403).

As shown in FIG. 4B, when the operation of the service initiation terminal is looked at, when the path failure notification packet 23 is received in operation 411, the service initiation terminal receiving the path failure notification packet 23 moves on the corresponding failure path. The transmission of data packets waiting to be delivered is stopped (412) and the routing packet 24 is sent (413) to begin the procedure for routing to the destination terminal.

Thereafter, after the routing packet 24 is sent, the routing timer is started (414) for the purpose of detecting the failure of the routing procedure. At this time, when the routing timer is received (414), if the routing response packet 25 is received (416), the service initiation terminal records the route terminal address and stops the driving of the routing timer (417). Thereafter, the data packet is transmitted with reference to the recorded pass through terminal address (418).

On the other hand, if no routing response packet 25 is received until the routing timer expires (415), the service initiation terminal informs the user that the service connection was disconnected due to a failure (419).

As shown in FIG. 4C, when the operation of the routing packet receiving terminal is performed, first, when the routing packet 24 is received (421), the terminal that receives the routing packet 24 receives the routing packet ( 24, it is checked whether it is received first (422).

As a result of the check, if the routing packet 24 is first received (that is, not duplicated), it is analyzed whether its terminal address and the destination address match (423).

As a result of the check, if the routing packet 24 is received in duplicate, the packet is discarded (425).

As a result of the analysis, if a match is found, the routing response packet 25 is transmitted to the service initiation terminal in the reverse order of the routing terminal address of the received routing packet 24 (424).

As a result of the analysis, if the destination of the routing packet 24 is not itself, the received routing packet 24 is transmitted to neighboring terminals in a broadcast form (426).

The method of the present invention as described above may be implemented as a program and stored in a computer-readable recording medium (CD-ROM, RAM, ROM, floppy disk, hard disk, magneto-optical disk, etc.).

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible in the art without departing from the technical spirit of the present invention. It will be clear to those of ordinary knowledge.

As described above, the present invention has the effect of enabling mutual communication through a desired service by identifying an executable service between terminals which are not adjacent to each other in an ad hoc network composed of several hops.

Claims (15)

A method of establishing a service connection in an ad hoc network composed of wireless terminals, A first step of the service initiating terminal broadcasting a service discovery packet to neighboring terminals to search for a terminal capable of executing an application service to be used by a user; A second step of the adjacent terminal discarding the duplicated service discovery packet and checking whether the service corresponding to the service code specified in the non-duplicated service discovery packet is executable; A third step of including the public user information recorded in the terminal in a service search response packet and sending it to the service initiation terminal if the service can be executed in the second step; If the service cannot be executed in the second step, adding a terminal address of the terminal to the other terminal by adding the terminal address of the service discovery packet; When the service initiation terminal receives a plurality of the service discovery response packets from the neighboring terminals as a result of the second to fourth steps, the service initiation terminal selects a service terminal with reference to user information, and then services A fifth step of transmitting data to the selected service terminal; A sixth step of generating, by the terminal detecting the failure of the path between the service initiation terminal and the destination terminal, a path failure notification packet to the service initiation terminal and discarding all untransmitted data; When the service initiation terminal receives the path failure notification packet, stopping transmission of data waiting to be transmitted and broadcasting a routing packet to the neighboring terminals to set a route to the corresponding destination terminal; An eighth step of the neighboring terminals discarding the duplicated routing packet and confirming whether a terminal address and a destination address of the duplicated routing packet match with each other; A ninth step of transmitting a routing response packet in the reverse order of the pass through terminal address in the received routing packet if it matches in the eighth step; A tenth step of broadcasting the received routing packet to other neighboring terminals if it does not match in the eighth step; And In the ad hoc network, when the service initiation terminal receives the routing response packet, an eleventh step of recording a routing terminal address included in the routing response packet and then transmitting data with reference to the routing terminal address How to set up service connection using ad hoc routing technology. delete delete delete delete delete delete delete delete delete delete delete delete delete delete

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