KR100755709B1 - Method for multicast routing using MPR set information - Google Patents

Abstract

Provides a multicast transmission method using MPR set information. In the multicast transmission method using the MPR set information, a plurality of nodes including a target node add a node selected as their MPR to the MPR set information, and transmit a join request packet including the MPR set information to the source node. And sending, by the source node, a data packet including the MPR set information to the destination node.

MPR, mobile ad hoc network, flooding

Description

Multicast transmission method using MPR set information {Method for multicast routing using MPR set information}

1 illustrates a conventional multicast routing method.

2 illustrates a tree structure formed of a conventional source node and a plurality of destination nodes.

3 illustrates a participation request packet transmission and tree structure including MPR set information according to an embodiment of the present invention.

4 illustrates data packet transmission including MPR set information according to an embodiment of the present invention.

5 illustrates data packet transmission including MPR set information when a node moves according to an embodiment of the present invention.

6 is a flowchart of data packet transmission including MPR set information in a mobile ad hoc network environment according to an embodiment of the present invention.

<Explanation of symbols on main parts of the drawings>

10: source node

20, 30, 40: destination node

The present invention relates to a multicast transmission method using MPR set information. More particularly, the MPR node retransmits a data packet redundantly even when a predetermined node moves in a tree, thereby improving the reception rate of the data packet. The present invention relates to a multicast transmission method using set information.

The mobile ad hoc network is designed for communication between wireless mobile devices by forming a temporary network between wireless mobile devices, and there are many differences from the existing wired network. In this case, the wireless mobile device has mobility and provides a function of transmitting and receiving various types of data. Hereinafter, the wireless mobile device will be referred to as a 'node'.

In a mobile ad hoc network environment, each node transmits data to a unicast method for transmitting data to only one specific node and a multicast method for transmitting data to a plurality of grouped nodes. In addition, there is a broadcast method for transmitting data to all nodes belonging to the mobile ad hoc network without specifying a specific node or a specific group.

1 illustrates a conventional multicast routing method.

Source node (node 1) in a mobile ad hoc network environment with a node that initially transmits data (hereinafter referred to as a "source node") and a set of multiple nodes (hereinafter referred to as a "group"). When (10) attempts to transmit data packets to nodes 20, 30, and 40 belonging to a specific group, the data packets transmitted by the source node 10 by the multicast routing method belong to the group. To the fields 20, 30, 40. In this case, multicast routing will be referred to as "on-demand MPR flooding."

On-demand MPR flooding is to reduce the use of excessive bandwidth that occurs in general flooding.In the case where there is data to be transmitted from the source node, the information of the neighbor node is first learned through the flooding process, and then the learned information is used. Multi-point relay (MPR) is selected by finding a 2-hop neighbor node. In addition, the on-demand MPR flooding is performed only when there is data to be transmitted from the source node, thereby reducing control packets that are periodically transmitted even when there is no data to be transmitted, such as a hello packet.

First, the control packet transmitted from the source node (node 1) 10 according to the 1-hop broadcast scheme is transmitted to neighboring nodes (number 3 and 4) at the 1-hop position with respect to the source node. Nodes 6, 12 and 12). In addition, for example, the source node (node 1) 10 may receive information transmitted by node 3, through which node 3, 4, 6, and 12 may be received. It can be seen that is a one-hop neighbor node for the source node 10.

In the next step, flooding by each neighbor node (nodes 3, 4, 6, and 12) causes the source node (node 1) to become node 1, node 7, and node 1 of node 3. It can be seen that it is a hop neighbor node, and nodes 5, 8, and 11 are 1-hop neighbor nodes of node 4.

Thus, the source node 10 can be seen that the second, seventh, fifteenth, fiveth, eighth, eleven nodes are located two-hops away from them. This may be possible because the control packet transmitted during the flooding process includes not only information about itself but also information about 1-hop neighbor nodes based on itself.

Each node may store information about 1-hop and 2-hop neighbor nodes in the form of a routing table based on its own way. If there is no change in the routing table, the source node (node 1) is a 2-hop neighbor node among the 1-hop neighbor nodes capable of forwarding packets in 2-hops through MPR calculation. 1-hop neighbor node that can cover (cover) is selected as the 'MPR' node, and control packet delivery on the network follows the MPR flooding scheme.

Meanwhile, while the control packet is transmitted in the flooding scheme, the control packet also includes information about the source node.

If the flooding is repeated by the above method, the control packet is finally delivered to the destination node 20, 30, 40 designated as the receiving node by the source node. These destination nodes are nodes grouped by the multicast scheme.

The destination node designates a node that transmits a control packet to itself as a 'parent node' and sends a 'join request packet' to inform the parent node of the existence of the destination node according to the unicast method. send. At this time, the parent node records the destination node as a 'child node' in its routing table. In the next step, if the node that has sent the control packet to itself again as its parent node, and transmits the 'participation request packet' according to the unicast method to the parent node, the node receiving the 'participation request packet' Records the node transmitting the 'participation request packet' as a 'child node'.

When this process is repeated and the 'participation request packet' transmitted from the target node is delivered to the source node, a tree structure composed of nodes that receive or transmit the 'participation request packet' may be formed. This is because a node that receives or transmits a 'participation request packet' includes information on a child node or a parent node in its routing table.

For example, in the case of using node 10 as the destination node, node 10 designates node 2, which has transmitted control packet to itself, as its parent node, and transmits' participation request packet to node 2. 'Is transmitted according to the unicast method. After receiving the 'participation request packet' transmitted by the node 10, the second node transmits the control packet to the 10 node 30 which has transmitted the 'participation request packet' to itself as a child node. Designate node 3 as its parent node. In the next step, 'participation request packet' is transmitted to node 3 according to the unicast method. Node 3 receives the 'Participation Request Packet' transmitted by Node 2, and then sends the control packet to itself to Node 2, which has sent 'Participation Request Packet' to itself, as a source node (10). ) As its parent node. In addition, the source node 10 transmits the 'participation request packet' according to the unicast method. The source node 10 designates node 3 as a child node that has transmitted the 'participation request packet' to itself.

Meanwhile, node 13, which is one of the target nodes, designates node 2, which transmits a control packet to itself, as its parent node, and transmits a 'participation request packet' to node 2 according to a unicast method. . Node 2 receives the 'participation request packet' transmitted by node 13, and designates node 13 as a child node.

According to the above method, the relationship between the parent node and the child node can also be established between the source node 10, the node 4, and the node 11, and each node receives information about its own parent and child nodes. Have

According to this method, a tree structure composed of the source node 10 and the destination nodes 20 and 30 40 for the source node 10 may be formed, as shown in FIG. 2.

2 illustrates a tree structure formed of a conventional source node and a plurality of destination nodes.

When the tree structure is formed through the method of FIG. 1, the source node 10 is ready to transmit data packets to the destination nodes 20, 30, and 40 according to the multicast scheme. The source node 10 transmits the data packet to neighbor nodes (nodes 3, 4, 6, and 12) according to a 1-hop broadcast scheme. At this time, nodes 3 and 4 corresponding to the child nodes of the source node among the neighboring nodes receiving the data packet transmitted from the source node 10 check whether there is a child node to themselves, and then, from the source node 10. The received data packet is retransmitted according to the 1-hop broadcast scheme. Repeating this process, the destination node 20, 30, 40 can receive the data packet transmitted from the source node (10).

However, for example, when node 4 moves in the tree structure, the child node of node 4 cannot receive the data packet, and thus, there is a problem in that a significant loss of the data packet occurs when the node moves.

Therefore, there is a need to stably transmit data packets even when a given node moves in the tree.

An object of the present invention is to provide a multicast transmission method using MPR set information.

The objects of the present invention are not limited to the above-mentioned objects, and other objects that are not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the multicast transmission method using the MPR set information according to an embodiment of the present invention comprises the steps of adding a node selected as its own MPR by a plurality of nodes including the destination node to the MPR set information; Transmitting the participation request packet including the MPR set information to the source node and transmitting the data packet including the MPR set information to the destination node.

Specific details of other embodiments are included in the detailed description and the drawings.

Advantages and features of the present invention and methods for achieving them will be apparent with reference to the embodiments described below in detail with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but can be implemented in various different forms, and only the embodiments make the disclosure of the present invention complete, and the general knowledge in the art to which the present invention belongs. It is provided to fully inform the person having the scope of the invention, which is defined only by the scope of the claims. Like reference numerals refer to like elements throughout.

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

3 illustrates a participation request packet transmission and tree structure including MPR set information according to an embodiment of the present invention.

In the prior art, when there is data to be transmitted from the source node as described in FIG. 1, after learning the information of the neighbor node through the flooding process, the 2-hop neighbor node is found using the learned information to find the MPR (Multi Point Relay) can be selected.

While the control packet is transmitted in the flooding scheme, the control packet includes information about the source node, and when the flooding is repeated, the control packet is transmitted to the destination nodes 20, 30, and 40 designated as the receiving nodes by the source node. It is finally delivered (transmitted) through the nodes of. In this case, the plurality of nodes refers to nodes between the source node and the destination node. For more details, refer to the above prior art contents.

As shown in FIG. 3, the destination node transmits a 'join request packet' indicating its existence to the source node. At this time, when the 'participation request packet' is delivered to the source node, a tree structure composed of nodes that receive or transmit the 'participation request packet' is formed. Hereinafter, descriptions will be made with emphasis on the contents which are different from those of the prior art, and duplicate descriptions will be omitted.

In the present embodiment, the MRP set information is included in the 'participation request packet' and transmitted.

For example, in the case of node 10, which is the destination node, 2, 7, and 14 are 1-hop neighbor nodes, and 7 and 2 are 2 out of 1-hop neighbor nodes. When the MPR is selected to cover a hop neighbor node, node 10, which is the destination node, adds nodes 2 and 7 selected as MPRs to the MPR set information. 'Participation request packet' including information is transmitted to node 2 which is a parent node.

In addition, in the case of the node 13, the target node 20, if the node selected as the MPR is the node 2, the node 2 is added to the MPR set information and the 'participation request packet' including the MPR set information is added to the parent node. Send to node 1.

Node 2 receives 'Participation Request Packet' including MPR set information added 2 and 7 from Nodes 10 and 30, which are the target nodes, and selects its own MPR again. Node 3 is added to the MPR set information including nodes 2 and 7 to be transmitted to node 3, which is the parent node that transmitted the control packet to itself.

Node 3 re-includes node 6 selected as its MPR in the MPR set information to which nodes 2, 7, and 3 are added to transmit to the source node 10.

In this manner, node 11 40 adds node 12 selected as MPR to the MPR set information, and node 4 MPR as source node 10 selected as MPR to node 12; In addition to the set information, the 'participation request packet' is transmitted to the source node 10.

Therefore, the source node 10 can obtain the MPR set information composed of the second, seventh, third, sixth, and twelve nodes.

The source node 10 includes MPR set information {2, 7, 3, 6, 12} to which nodes 2, 7, 3, 6, and 12 have been added, in the data packet, as shown in FIG. As shown, multicast data packet transmission is performed.

4 illustrates data packet transmission including MPR set information according to an embodiment of the present invention.

When the tree structure is formed through the method of FIG. 3, the source node 10 transmits a data packet including MPR set information to the destination node 20, 30, and 40 (hereinafter referred to as a data packet) to the multicast scheme. Ready to send.

The source node 10 transmits the data packet to neighbor nodes (nodes 3, 4, 6, and 12) according to a 1-hop broadcast scheme. The neighbor node receiving the data packet retransmits the corresponding data packet if a child node exists.

In addition, since the MPR set information is included in the data packet transmitted from the source node 10, the received neighbor node checks whether the MPR set information (hereinafter referred to as 'ID') exists in the MPR set information. If present, the data packet received from the source node 10 is retransmitted according to the 1-hop broadcast scheme. That is, it can be seen that the node in which the ID exists is an MPR node.

Therefore, while transmitting the data packet in the shortest path between the source node and the designated target node, the reception rate can be increased by the retransmission of the data packet by the MPR node in the vicinity.

In addition, in FIG. 5, the data packet transmission including the MPR set information when the node moves is described.

5 illustrates data packet transmission including MPR set information when a node moves according to an embodiment of the present invention.

For example, when node 10, the target node, moves to node 7, while the source node 10 transmits the data packet including the MPR set information, node 7, the MPR of node 3, is MPR set. Receives a data packet including information and checks its identity in the MPR set information. At this time, since its own MPR information, or ID, is present in the MPR set information, the data packet may be retransmitted to node 10, which is the target node, to reduce the loss of the existing data packet.

Further, for example, when node 4, the tree member 15, moves out of the tree to another place, the data packet including the MPR set information is transmitted through node 12, the MPR of the source node 10, in the above-described manner. May be retransmitted to node 11, which is the destination node.

6 is a flowchart of data packet transmission including MPR set information in a mobile ad hoc network environment according to an embodiment of the present invention.

If there is data to be transmitted from the source node to the destination node, the source node transmits a control packet for data transmission according to a 1-hop broadcast method (S601).

The control packet transmitted by the source node is delivered to the destination node through a plurality of nodes according to the flooding scheme (S611).

In the next step, multiple nodes, including the destination node, add the node selected as their MPR to the MRP set information, and send a 'participation request packet' including the MRP set information to the next parent node, and thus through the multiple nodes. The source node receives the 'participation request packet' including the final MRP set information (S621).

In this case, each of the plurality of nodes stores information on their own parent node and child node, so that the plurality of nodes overlap with the contents of the prior art and will be omitted below.

When the source node receives the 'participation request packet' including the MPR set information, the source node transmits the data packet to the neighbor node according to the 1-hop broadcast method, and a node having a child node among the neighbor nodes receives the data. The packet is transmitted to its own child node (S631).

At this point, in the process of transmitting the data packet including the MPR set information, the plurality of nodes check whether their ID exists in the MPR set information, and if the ID exists, 1- 1 receives the data packet received from the source node 10. The data is retransmitted again according to the hop broadcast method (S641).

By repeating this method, not only can the data packet transmitted from the source node be safely delivered to the destination node, but also if the MPR node retransmits the data packet redundantly, even if a given node is moved from the tree to another place. Can increase the reception rate.

Although embodiments of the present invention have been described above with reference to the accompanying drawings, those skilled in the art to which the present invention pertains may implement the present invention in other specific forms without changing the technical spirit or essential features thereof. I can understand that. Therefore, it should be understood that the embodiments described above are exemplary in all respects and not restrictive.

According to the multicast transmission method using the MPR set information of the present invention as described above, even if a predetermined node moves in the tree by the MPR node retransmitting the data packet redundantly, the reception rate of the data packet can be increased and the source node There is an advantage that the data packet transmitted from can be safely delivered to the destination node.

Claims (4)

Adding, by a plurality of nodes, nodes whose nodes are selected as MPRs to MPR set information; Transmitting a join request packet including the MPR set information to a source node; And And transmitting, by the source node, a data packet including the MPR set information to a destination node, wherein nodes included in the MPR set information among the plurality of nodes retransmit the data packet to the destination node. Multicast transmission method using information. The method of claim 1, And forming a tree structure between the source node and the target node by using the participation request packet including the MPR set information. delete The method of claim 2, The retransmission of the data packet is a 1-hop broadcast method, multicast transmission method using the MPR set information.

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