JP2946517B2 - Routing method and routing table update method - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a routing method and a routing table updating method, and more particularly to a routing method and a routing method suitable for performing mobile communication for determining a route to a destination terminal. The present invention relates to a routing table updating method for updating a routing table used in the method.

[Conventional technology]

In many conventional communication systems, the address of a terminal indicates the location of the terminal in the communication network, so that the node to be connected can be known by looking at the address of the destination terminal. .

For example, in the case of the telephone number (03) XXX-YYYY, 03 is Tokyo, that is, indicates a Tokyo local exchange, the next XXX indicates a specific local exchange in Tokyo, YYYY indicates a specific link in the local exchange. However, with such a position-dependent address, when the terminal moves and its connection position changes, the address must be changed each time.

On the other hand, mobile communication is one of communication services that can cope with the movement of a terminal. For example, in an automatic telephone system or the like, an identifier independent of a position is used as a terminal address. The use of such an address that does not depend on the position has the advantage that the address does not need to be changed even if the terminal moves, and the usefulness of using the address that does not depend on the position is extremely large in a system that enables mobile communication in the future. .

[Problems to be solved by the invention]

However, when an address that does not depend on the position as described above is used, there is actually the following problem.

In other words, when using an address that does not depend on the location, the address itself does not include any information on the accommodation location. Therefore, in order to find a node to be connected from the address of the destination terminal, basically all terminals in the network must On the other hand, a conversion table (referred to as an address table) between addresses and their accommodation positions is required. And if the terminal moves,
It is necessary to rewrite the contents of the address table for each movement. The problem is how and how to maintain and update this address table.

One method considered as a countermeasure in this case is a method in which a center for holding an address conversion table is provided in a communication system, and a source inquires the center of the position of a destination terminal prior to communication. However, in this case, inquiries are concentrated at the center every transmission from all terminals, and movement notifications are also concentrated every time the terminal moves. In a large-scale system, the traffic load and address at the center are large. The load for searching and rewriting the table increases.

Further, in order to reduce the load of the inquiry traffic as described above, it is conceivable to provide a plurality of centers, that is, to provide a plurality of centers holding the same address table. This must be done every time the terminal moves at the center.

An object of the present invention is to solve the load concentration of the center system, to use a plurality of terminal accommodating devices accommodating one or more communication terminals as end points, a plurality of connecting devices as nodes, and to establish a connection between the terminal accommodating device and the connecting devices. In a tree-like communication network connected by links, when mobile communication is enabled, a routing method in which unnecessary load is not applied to links other than paths and connecting devices, and a routing table update capable of appropriately updating an address table. It is to provide a method.

[Means for solving the problem]

The present invention relates to a tree-shaped communication network in which a plurality of terminal accommodation devices accommodating one or more communication terminals are end points, and a plurality of connection devices are nodes, and the terminal accommodation devices and the connection devices are connected by links. In the routing method, a connection device located at each node of the tree holds an address table in which addresses of communication terminals belonging to a subtree rooted at the own node and links accommodated therein are recorded, and a communication frame is transmitted. If received, the destination address is compared with the address table in the own device, and if the destination address is in the address table, the address is transferred to the corresponding link, and the address corresponding to the address table is Otherwise, if the received link is from a higher node in the tree, the information frame is discarded or the lower node is , And in the case of another link, to a link to an upper node of the tree.

Further, the present invention provides a tree-like communication in which a plurality of terminal accommodating apparatuses accommodating one or more communication terminals are end points, a plurality of connecting apparatuses are nodes, and the terminal accommodating apparatuses and the connecting apparatuses are connected by links. A routing table updating method in a network, wherein a connection device located at each node of a tree holds an address table recorded as a pair of an address of a communication terminal belonging to a subtree rooted at the own node and a link accommodated therein. Each communication terminal transmits a movement notification frame in which the address of its own terminal is written when it moves the terminal accommodation device to be accommodated, and when each connected device receives the movement notification frame, it transmits the movement notification frame. The terminal address of the terminal is compared with the address table in its own device, and if the corresponding address is already in the address table, the mobile link is transmitted to the corresponding link. When the frame is transferred and the corresponding link column is rewritten to the link that has newly received the movement notification frame, if the address is not in the address table in the own device, the address and the link that received the movement notification frame are rewritten. A pair is added to the address table, and the movement notification frame is transferred to a link to an upper node of the tree.

[Action]

In the present invention, each connection device can determine the route to the destination terminal in a distributed manner based on a partial address table in the own device.
When the terminal moves, the local movement can be performed only by the local change with respect to the terminal movement.

〔Example〕

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

FIG. 1 is a configuration diagram showing an example of a communication system to which the system of the present invention can be applied.

As shown in FIG. 1, the present communication system includes a plurality of terminal accommodating devices 101 to 108 and a plurality of connecting devices 9 to 15, and each of the terminal accommodating devices 101 to 108 has a predetermined communication terminal. Is connected to Each communication terminal is a movable terminal. And terminal B, and terminal G and terminal H.

The terminal accommodation devices 101 to 108 and the connection devices 9 to 15 are connected in a tree shape via links.

That is, in the communication system of FIG.
A tree-shaped communication network is configured in which 101 to 108 are end points, the connection devices 9 to 15 are nodes, and the terminal accommodating devices 101 to 108 and the connection devices 9 to 15 are connected by links. 15 have a plurality of links toward nodes lower than themselves. In the figure, just two links are provided, but the number is not necessarily two. The link on the left side is called link 1 and the link on the right side is called link 2 among the two links directed to the lower nodes in the figure. In addition, all the connection devices 9 to 14 except the connection device 15 corresponding to the root node of the tree have exactly one link toward the upper node.

Further, the connection devices 9 to 15 hold the following address tables.

FIG. 2 is an example of an address table that can be used in the present invention.
The contents of the address tables 9A to 15A held by the connection devices 9 to 15 in the case of the configuration of FIG. 1 are shown. Each connection device 9-15
Address tables 9A to 15A are tables in which the addresses of the terminals belonging to the subtree rooted at the self and the accommodation links thereof are paired.
An address table 13A is provided in which contents belong to link 1 side, that is, the left link side in FIG. 1, and terminals D and E belong to link 2 side, that is, the right link side in FIG. Will be.

Next, the routing system according to the present invention will be described with reference to FIG. 1 showing the communication network having the above-described configuration and FIG.

When the terminal A communicates to the terminal E, first, terminal A transmits the information frame to the address E ₁ of the destination terminal E and the destination address to the terminal accommodating apparatus 101 addressed. In this case, since the destination terminal E is not directly connected to the terminal accommodation device 101, the terminal accommodation device 101 transfers the information frame to the upper connection device 9.

Here, the connection device 9 is compared with the destination address E ₁ and its address table 9A, as shown in FIG. 2, E ₁ is because it is not in the address table 9A, transfers to the connection device destined 13 higher. Then, when such a transfer takes place, the connecting device 13 is also similarly compared to the address table 13A destination address E _1, in this case,
As shown in FIG. 2, the address E ₁ is in the address table 13A, moreover link 2 side, that is, it can be seen that there are terminal E of interest on the right side of the link-side in FIG. 1, the information frame Is first transferred to the link 2 side, that is, to the connection device 10.

When the above transfer is performed, the following transfer is sequentially performed in accordance with the comparison with its own address table.

That is, the connection device 10 knows that the terminal E is further on the link 2 side, and therefore,
Side, that is, to the terminal accommodation device 104. Then, the terminal accommodation device 104 further transfers the information frame to the terminal E.

In this way, the information frame from terminal A is
, But no information frame flows on unnecessary links and connection devices other than the link and the connection device on the route. For this reason, it is possible to prevent an unnecessary load from being applied to the link and the connection device other than the route, and it is possible to eliminate the concentration of the load in the case of the center method described above.

 Further, a specific description will be given with reference to FIG.

FIG. 3 is a flowchart showing an operation example of a routing process in each connection device for realizing the routing method according to the present invention.

In FIG. 3, when the connection device receives the information frame, that is, when the information frame comes in from any link, it compares the address of the destination terminal with the address table in the device (step 301). If the destination address is on the address table, the information frame is transferred to the corresponding link (step 302). If the destination address is not in the address table, the link which received the information frame is checked (step 303). If the received link is a link from an upper node, the information frame is discarded (step 303). 304), otherwise transfer the information frame to the link to the upper node (step 305).

Thus, in the routing method of the present embodiment,
A plurality of terminal accommodation devices accommodating one or a plurality of communication terminals
In a tree-shaped communication network in which terminals 101 to 108 are end points, a plurality of connection devices 9 to 15 are nodes, and the terminal accommodating devices 101 to 108 and the connection devices 9 to 15 are connected by links, they are located at respective nodes of the tree. The connection devices 9 to 15 hold an address table in which addresses of terminals belonging to a subtree rooted at the own node and links accommodated therein are recorded, and when a communication frame is received, the destination address is stored in the connection table. Compare with the address table in the device, if the destination address is in the address table, transfer to the corresponding link, and if there is no corresponding address in the address table, the received link is higher in the tree If the link is from a node, the information frame is discarded, otherwise, the information frame is forwarded to the link to the upper node of the tree,
As described above, unnecessary load can be prevented from being applied.

In the processing of step 304, a state where the destination address of the information frame from the upper node is not in the address table cannot occur in a normal state, and is considered to be an abnormal state. Therefore, in this example, the information is discarded. However, the information may be transferred to all the links addressed to the lower nodes without discarding.

Next, the method of changing the address table when the terminal moves,
That is, the routing table updating method will be described with reference to FIG.

The above address tables 9A to 15A constitute a routing table.
Perform as follows.

That is, in a tree-shaped communication network in which a plurality of terminal accommodation devices accommodating one or a plurality of communication terminals are end points, a plurality of connection devices are nodes, and the terminal accommodation devices and the connection devices are connected by links, The connection device located at the node holds an address table in which the addresses of the terminals belonging to the subtree rooted at the own node and the links accommodated therein are recorded in pairs, and each terminal moves the accommodated terminal accommodation device Transmits a movement notification frame in which the address of the own terminal is written, and upon receiving the movement notification frame, each connected device compares the terminal address in the movement notification frame with the address table in the own device, and If already exists in the address table, the movement notification frame is transferred to the corresponding link, and the movement of the corresponding link column is newly notified. If the address is not found in the address table in the own device, a pair of the address and the link that received the movement notification frame is added to the address table, and the movement notification frame is added to the tree. Transfer to the link to the upper node.

For example, in a specific example, FIG. 4 shows a state where the terminal E has moved from the terminal accommodating device 104 to the terminal accommodating device 103 in the configuration of FIG. That is, in the state of FIG. 1, the terminal E is connected to the terminal accommodating device 104, as described above, but in the state of FIG. The terminal E is accommodated together with the terminal D. As described above, when the terminal E moves, the contents of the address table 10A of the connection device 10 shown in FIG. 2 are also required to be changed with the movement. That is, the contents of the address table 10A indicate that, before the movement, the terminal E is on the right link side in FIG. 1, that is, on the link 2 side. Must be changed to a state on the link side on the left side in FIG. 4, that is, on the link 1 side.

 Such an update is performed as follows.

First, when the terminal E has moved as Figure 4, after the movement, terminal E, the mobile notification frame to write their address E ₁ transmits to the terminal accommodating apparatus 103. In this case, the terminal accommodation device 103 records that the terminal E is directly connected to itself, and transfers the movement notification frame to the connection device 10. When such transfer is performed, the connection device 10
Since the terminal E is already registered in the address table 10A, the movement notification frame is transferred to the corresponding link 2, and the link corresponding to the terminal E in the address table 10A is changed to the link that received the movement notification frame. Change 1 The terminal accommodation device 104 receives the movement notification frame of the terminal E from the connection device 10, and knows that the terminal E is not already directly connected to itself.

With the above operation, the change of the address table for the movement of the terminal E ends. In this case, the change of the address table is
It is performed only by the connection device 10, and does not affect the other connection devices 9, 11 to 15 at all.

In this way, when the terminal moves, the local movement is only a local change with respect to the movement of the terminal. In this regard, the load on the transmission path and the processing can be reduced.

 This will be described more specifically with reference to FIG.

FIG. 5 is a flowchart showing an operation example of an update process in each connection device for realizing the above-described address table update method.

In FIG. 5, when the connection device receives the movement notification frame, that is, when a movement notification frame accompanying the movement of the terminal is received, the connection device compares the terminal address with an address table in the device (step 501). If the address is listed in the address table, the information frame is transferred to the corresponding link, and the link corresponding to the address in the address table in the own device is rewritten to the link that has received the movement notification frame. (Step 502). That is, for example in terms of the case of moving the fourth diagram of the terminal E, the contents of the column of the link connection unit 10 corresponds to the address E ₁ of its own address table 10A, rewrites the link 2 to the link 1 processing the This corresponds to the rewriting process in step 502.

On the other hand, if the address is not in the address table, the link that received the movement notification frame is checked (step 503), and if the received link is a link from a lower node, the address is checked. And the link pair that has received the movement notification frame is added to the address table, and the movement notification frame is further transferred to the link to the upper node (step 504), and otherwise discarded (step 505).

If the address in the movement notification frame received from the upper node in step 505 is not in the address table, it cannot occur in the normal state, and is considered to be abnormal.

As described above, when the terminal is moved as described above, the above-described update is performed. Thereafter, the terminal after the movement is also followed according to the routing method described in FIG.
The route to the destination terminal can be determined so that unnecessary load is not applied to the link and the connection device as much as possible. That is, each connection device partially stores the address table,
By maintaining the distribution in a decentralized manner and determining the routes in a distributed manner, it is possible to maintain a routing method in which unnecessary loads are not applied to links and connection devices other than the routes.

〔The invention's effect〕

As described above, according to the present invention, since each connection device can determine the route to the destination terminal in a distributed manner by using a partial address table in the own device, extra communication and processing for route determination are performed. It is not necessary, and even if the terminal moves, local movement can be done only by local change, so that the load on the transmission path and processing can be reduced.

[Brief description of the drawings]

FIG. 1 is a diagram showing an example of a system configuration for explaining an embodiment of the present invention, FIG. 2 is a diagram showing an example of an address table applicable to the present invention, and FIG. 3 is routing according to the present invention. FIG. 4 is a flowchart showing an example of the operation of the connection device for executing the method, FIG. 4 is an explanatory diagram for explaining the change of the address table accompanying the movement of the terminal, and FIG. 5 executes the routing table update method according to the present invention. Is a flowchart showing an example of the operation of the connection device for the connection. 9-15 Connection device 9A-15A Address table 101-108 Terminal accommodating device AJ Terminal

Claims (2)

(57) [Claims] 1. A tree-shaped communication network in which a plurality of terminal accommodation devices accommodating one or more communication terminals are end points, a plurality of connection devices are nodes, and the terminal accommodation devices and the connection devices are connected by links. The connection device located at each node of the tree holds an address table in which addresses of communication terminals belonging to a subtree rooted at the own node and links accommodated therein are stored, and a communication frame. Is received, the destination address is compared with the address table in the own device. If the destination address is in the address table, the address is transferred to the corresponding link, and the address corresponding to the address table is received. Otherwise, if the received link is a link from an upper node of the tree, the information frame is discarded or a lower node is deleted. A routing method characterized in that data is transferred to all links and, in the case of other links, to a link to an upper node of the tree. 2. A tree-like communication network in which a plurality of terminal accommodating apparatuses accommodating one or more communication terminals are end points, a plurality of connecting apparatuses are nodes, and the terminal accommodating apparatuses and the connecting apparatuses are connected by links. The connection device located at each node of the tree holds an address table in which the address of the communication terminal belonging to the subtree rooted at the own node and the link accommodated therein are recorded as a pair, Each communication terminal transmits a movement notification frame in which the address of its own terminal is written when the terminal accommodating device to be accommodated has been moved, and each connected device has the movement notification frame included in the movement notification frame when receiving the movement notification frame. Is compared with the address table in its own device, and if the corresponding address is already in the address table, the corresponding link is notified of the movement. The corresponding link column is rewritten to the link that has received the movement notification frame, and if the address is not present in the address table in its own device, the address and the link that has received the movement notification frame are rewritten. A routing table updating method, wherein a pair is added to the address table and the movement notification frame is transferred to a link to an upper node of the tree.