KR20020067470A - Method for routing and rout request message using participation flag in ad-hoc networks - Google Patents

Abstract

PURPOSE: An RREQ(Route REQuest) message using a PF(Participation Flag) in an AD-HOC network and a method for setting up routes are provided to selectively carry out route setup according to the residual power of each node by adding and inserting a PF into an on-demand routing protocol RREQ message. CONSTITUTION: A source node in an AD-HOC network adds a PF, of which the flag value is the first value, to an RREQ message and transmits it to each peripheral node(S10). Then the source node judges whether RREP(Route REPly) messages are received from the peripheral nodes within a preset time(S20). In case that RREP messages are received within the preset time, the source node sets up the first route, which is normal, with the nodes of which the residual power is more than a preset reference value(S30). However, if RREP messages are not received within the preset time, the source node judges that it is impossible to set up a route using nodes having sufficient residual power. Accordingly, the source node retransmits an RREQ message, to which a PF having the second value is added, to each peripheral node(S40). Then the source node judges whether RREP messages are received within a preset time(S50). In case that RREP messages are received, the source sets up the second route, which is urgent, using the nodes of which the residual power is less than a preset reference value(S60).

Description

Routing message and route setting method using power discrimination flag in AD-HOC network {METHOD FOR ROUTING AND ROUT REQUEST MESSAGE USING PARTICIPATION FLAG IN AD-HOC NETWORKS}

The present invention relates to an AD-HOC network, and more particularly, a path setting message and a path for transmitting a path from a source node to a destination node for transmitting data in the AD-HOC network. It is about how to set up.

In the current AD-HOC network, packet data is transmitted from a source node to a destination by nodes constituting the network using an on-demand routing protocol without using a separate packet repeater.

That is, in the AD-HOC communication network, a route setup message (RREQ: Rout REQuest message) is transmitted between nodes in order to find a route from a source node to a destination node, and a response message (RREP: Rout REPly message) is received from the nodes. You will find the path from the node to the destination node. At this time, the power state of the nodes is not considered and all nodes participate in the routing.

On the other hand, when packet data of a source node needs to reach a destination node through several hops (HOPs), nodes located in the middle of the path must deliver packets passing through the path to the next neighbor node.

However, if the nodes of the AD-HOC network have different power sizes, for example, if the nodes are configured with a notebook (large power) or a mobile terminal (low power), the path between the notebook and the mobile terminal is established. Because of the different power levels, it is difficult to stably transfer packet data from the source node to the destination node. If a node with relatively low residual power is set as an intermediate path, the power of the corresponding intermediate node is quickly exhausted due to packet relaying, and thus, there is a need to find a new path from the source node to the destination node again.

It is an object of the present invention to solve the problems of the prior art as described above in the on-demand routing protocol (RREQ) of the nodes of the nodes of the AD-HOC network with sufficient residual power or nodes with insufficient residual power. By additionally inserting a node power discrimination flag for establishing a packet path, the path setting message in the AD-HOC network can be selectively configured according to the remaining power of the nodes.

Another object of the present invention is to attempt to establish a path while excluding nodes that do not have enough remaining power in the AD-HOC network, and if the path setting fails, remaining power is increased by joining nodes that do not have enough remaining power. In addition to reducing the power consumption of the insufficient nodes, the present invention provides a routing method in the AD-HOC network that can reduce the amount of packet overload generated each time a new path is established.

In order to achieve the above object, the present invention provides a routing message in a routing message (RREQ) of an on-demand routing protocol transmitted to nodes configuring the AD-HOC network in order to establish a route in an AD-HOC network. If the node power discrimination flag is added to the node, and the node power discrimination flag included in the routing message transmitted to the nodes is the first value, only nodes whose residual power is greater than or equal to the set reference value are selected for routing and are transmitted to the nodes. When the node power discrimination flag included in the routing message is the second value, only nodes whose residual power is less than the set reference value are selected for routing.

In order to achieve the above object, the first method of the present invention provides a method for establishing a path in an AD-HOC network, wherein the source node constituting the AD-HOC network distinguishes node power having a first value from neighboring nodes. Transmitting a flagged routing message (RREQ), determining whether a response message is received from neighboring nodes at the source node, and if the response message is received from the neighboring nodes, remaining power is increased. And establishing a first path from the source node to the destination node of the AD-HOC network with nodes that are equal to or greater than the set reference value.

In order to achieve the above object, the second method of the present invention is a method for establishing a path in an AD-HOC network, wherein the source node constituting the AD-HOC network distinguishes node power having a first value from neighboring nodes. Transmitting a flagged routing message (RREQ), determining whether a response message is received from surrounding nodes at the source node, and if the response message is not received from the surrounding nodes as a result of the determination, the source node. Retransmitting a routing message (RREQ) in which a node power discrimination flag having a second value is added to the neighboring nodes at the node; determining whether a response message is received from the neighboring nodes at the source node; When the response message is received from the neighboring nodes, the second path from the source node to the destination node of the AD-HOC network to the nodes whose residual power is lower than the set reference value. Setting up.

1 is a flowchart for explaining a path setting method in an AD-HOC network according to the present invention;

FIG. 2 is a diagram for explaining a case of setting a path through a node whose power is greater than or equal to a reference value in an AD-HOC network according to an embodiment of the present invention; FIG.

3 is a diagram for explaining a case of setting a path through nodes whose power is less than a reference value in an AD-HOC network according to another embodiment of the present invention;

<Description of the code | symbol about the principal part of drawing>

10: source node

20: destination node

30: Node with power below the reference value

40: Node whose power is above the reference value

First of all, the present invention relates to a path establishment message (RREQ) of an on-demand routing protocol transmitted to nodes constituting an AD-HOC network to establish a path in an AD-HOC network. The node power discrimination flag (PF) is added to the message RREQ.

In this case, when the node power discrimination flag PF included in the routing message RREQ transmitted to the nodes is the first value (for example, 1), the remaining power of the nodes is set to be normal. Defines that only nodes that are higher than the set reference value are selected for path setting. When the node power discrimination flag PF included in the routing message RREQ transmitted to the nodes is the second value (for example, 0), the status of the routing is urgent, so that the remaining power is reduced. Defines nodes selected below the set reference value for path setting. Here, the first value or the second value of the node power discrimination flag PF is a variable that can be changed.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a flowchart illustrating a path setting method in an AD-HOC network according to the present invention.

Referring to FIG. 1, a source node configuring an AD-HOC network adds a node power discrimination flag (PF) to neighboring nodes using an on-demand routing protocol, but the flag value is zero. The path setting message RREQ defined as 1 is transmitted. (S10) First, when the first value of the node power discrimination flag PF is '1', for example, the path setting state is normal. This ensures that only nodes with sufficient residual power above the set reference value are selected for routing.

Herein, according to the present invention, a normal path composed of nodes with sufficient residual power or an emergency path involving nodes with insufficient residual power may be established according to the residual power size of the nodes. In the description of the present invention, it is assumed that the remaining power levels of the nodes of the AD-HOC network are different, for example, when the nodes are configured with a notebook (high power) or a mobile communication terminal (low power).

The source node sending the RREQ message in the AD-HOC network determines whether a response message RREP is received from neighboring nodes in the AD-HOC network for a set time (S20).

If the response message RREP is received from the neighboring nodes within the set time as a result of the determination of S20, the normal first path of the AD-HOC network is set to nodes whose residual power is equal to or greater than the set reference value (S30).

On the contrary, as a result of the determination of S20, when the response message RREP is not received from the neighboring nodes for a predetermined time, the source node of the AD-HOC network determines that the path setting is impossible only with the nodes having sufficient remaining power. Therefore, the source node retransmits the routing message RREQ to which the node power discrimination flag PF having the second value is added to neighboring nodes so that the nodes having insufficient residual power can participate in the routing. If the second value of the routing message RREQ is '0', the routing configuration becomes urgent so that even nodes that have insufficient power remaining in the network may participate in the routing setup regardless of the remaining power of the nodes. have.

The nodes that send the routing message RREQ including the node power discrimination flag PF having the second value in the next process of S40 are neighbor nodes that receive the routing message RREQ during routing in the AD-HOC network. In step S50, it is determined whether a response message RREP is received.

If it is determined in S50 that the response message RREP is received from the neighboring nodes within the set time, the emergency second path of the AD-HOC network is set to nodes whose residual power is less than the set reference value (S60).

As a result of the determination of S50, if the response message RREP is not received from the nodes within the set time, the path setting process fails and returns to S10 and repeats from the beginning.

FIG. 2 is a diagram illustrating a case of setting a path through a node whose power is greater than or equal to a reference value in an AD-HOC network according to an embodiment of the present invention.

Referring to FIG. 2, if an AD-HOC network is formed of nodes having a residual power above a reference value and below a reference value, and there is a response of a routing message (RREQ) from a node having a residual power above a reference value, a packet path is set as follows. . That is, the packet path from the source node (S, 10) to the destination node (D, 20) is made through the node 40 with the remaining power equal to or greater than the set reference value except for the node 30 whose residual power is less than the set reference value.

FIG. 3 is a diagram illustrating a case of setting a path through nodes whose power is less than a reference value in an AD-HOC network according to another embodiment of the present invention.

Referring to FIG. 3, when there is no response from a node whose residual power is greater than or equal to a predetermined reference value for transmission of the routing message (RREQ), or when nodes of the AD-HOC network are composed of nodes having residual power less than or equal to a predetermined reference value, Likewise, the packet path is established. The packet path from the source node (S, 10) to the destination node (D, 20) is through the node 30 whose residual power is less than the set reference value.

As described above, the present invention adds a node power discrimination flag (PF) to a routing message (RREQ) when setting a path from a source node to a destination node in an AD-HOC network composed of several nodes having different residual powers. Therefore, the packet path may be set in consideration of the power of the entire network nodes.

That is, when the node power discrimination flag PF is in a normal state, nodes that are relatively low in power reduce the participation in routing, so that the nodes having insufficient power are configured to establish a packet path from the source node to the destination node by nodes having sufficient power. In addition to reducing power consumption, it also reduces packet overload that occurs every time a new path is established. In addition, in the emergency state, the node power discrimination flag PF may configure the packet path from the source nodes to the destination node by joining the nodes having insufficient power in the path setting.

On the other hand, the present invention is not limited to the above-described embodiment, but various modifications are possible by those skilled in the art within the spirit and scope of the present invention described in the claims below.

Claims (6)

In the routing message (RREQ) of the on-demand routing protocol transmitted to the nodes constituting the AD-HOC network to establish a route in the AD-HOC network, Add a node power discrimination flag to the routing message, When the node power discrimination flag included in the routing message transmitted to the nodes is a first value, only nodes whose residual power is greater than or equal to a predetermined reference value are selected for routing and included in the routing message transmitted to the nodes. If the node power discrimination flag is the second value, only the nodes whose residual power is less than the set reference value are selected for the path setting. 2. The routing message of an AD-HOC network according to claim 1, wherein the first value is 1 and the second value is 0, or the first value is 0 and the second value is 1. In the method for establishing a path in the AD-HOC network, Transmitting, by a source node constituting the AD-HOC network, a routing message (RREQ) to which neighboring nodes have a node power distinguishing flag having a first value added; Determining at the source node whether a response message is received from the surrounding nodes; And And as a result of the determination, when the response message is received from the neighboring nodes, setting a first path from the source node of the AD-HOC network to the destination node to nodes whose residual power is equal to or greater than a set reference value. How to set up route in AD-HOC network. In the method for establishing a path in the AD-HOC network, Transmitting, by a source node constituting the AD-HOC network, a routing message (RREQ) to which neighboring nodes have a node power distinguishing flag having a first value added; Determining at the source node whether a response message is received from the surrounding nodes; Re-transmitting, from the source node, a routing message (RREQ) to which a node power discrimination flag having a second value is added to the neighboring nodes if a response message is not received from the neighboring nodes; Determining whether a response message is received from the surrounding nodes at the source node; And And as a result of the determination, when the response message is received from the neighboring nodes, setting a second path from the source node to the destination node of the AD-HOC network to nodes whose residual power is less than a predetermined reference value. How to set up route in AD-HOC network. The path setting in the AD-HOC network according to claim 3 or 4, wherein the first value of the node power discrimination flag is a value for selecting only nodes whose remaining power of the neighboring nodes is greater than or equal to a set reference value. Way. The path setting in the AD-HOC network according to claim 3 or 4, wherein the second value of the node power discrimination flag is a value for selecting only nodes whose remaining power of the neighboring nodes is less than a set reference value. Way.