KR100941801B1 - Method of processing a message relavant to a call establishment by an aal2 node - Google Patents

Abstract

The present invention provides a method for processing a call setup-related message performed at an AAL2 node that has sent a message requesting call setup through a first resource. According to the method of the present invention, after the AAL2 node receives a message requesting call establishment on the first resource, it is determined whether the AAL2 node has ownership on the first resource. If it is determined that the AAL2 node has ownership on the first resource, it sends a confirmation message that includes information about the available second resource. The present invention also provides a method for processing call setup-related messages performed at an AAL2 node that has sent a message requesting call setup through a first resource. After receiving the confirmation message including the information about the second resource, the AAL2 node determines whether the second resource is available. If it is determined that the second resource is available, the AAL2 node sends a message requesting call establishment on the second resource.

ATM Adaptation Layer type 2 (AAL2) node, Establish Request, Establish Confirm, Release Confirm, Collision

Description

Method of handling call setup message performed in AAL2 node {METHOD OF PROCESSING A MESSAGE RELAVANT TO A CALL ESTABLISHMENT BY AN AAL2 NODE}

The present invention relates to a mobile communication technology, and more particularly, an ATM Adaptation Layer type 2 (AAL2) node capable of preventing a decrease in efficiency due to a collision of resource use requests in an asynchronous transfer mode (ATM) switching system. It relates to a method of processing a call setup related message in.

The ATM communication method is a basic protocol of a broadband integrated services digital network (B-ISDN), and divides all information into fixed length blocks called ATM cells, and sequentially transmits them. The ATM cell has a total of 53 bytes, of which the header is 5 bytes and the information field is 48 bytes. In the header, a virtual channel identifier (VCI) for identifying a connection to which a cell belongs, a virtual path identifier (VPI), and a cell priority indicating whether a cell is discarded during congestion information such as priority (CLP), a cell information identifier (PTI) for distinguishing network control information, a header error control (HEC) of a header, and the like are displayed.

The AAL2 node used in the ATM communication method has shown efficient performance in the wired section of the cellular, PCS network and IMT2000 network. As defined in ITU-T Q.2630, AAL2 nodes work to pre-set the resources to be used for communication prior to the connection for communication. Resources used for communication refer to virtual paths and virtual channels, which are identified by path identifiers (PIs) and channel identifiers (CIDs), respectively.

The AAL2 node wishing to communicate reserves a virtual path and a virtual channel resource to be used for a communication connection, and transmits the information about the AAL2 node to a counterpart node in the header of a bearer establishment request (ERQ) message. The partner node receiving the configuration request message extracts information about the virtual path and the virtual channel included in the header of the message and makes a reservation for these resources. The partner node then sends a bearer establishment confirm (ECF) message to the node that sent the establishment request message. Through this series of processes, a bearer is established between two nodes and a traffic path is established.

An AAL2 node wishing to communicate sends the bearer establishment request message containing information about any resource to the other node and then receives the bearer establishment confirmation message from the other node before the same node, i.e., the same virtual path, from the other node. And a resource request collision occurs when a bearer establishment request message for reserving a virtual channel is received. When the AAL2 node receives a message requesting reservation for the same resource as the resource that has requested reservation for the other node from the corresponding node, the AAL2 node confirms the release of rejecting the call establishment request as a response to the received setup request message. Send a (Release Confirm: RLC) message. The same procedure is performed on the counter node. Thus, both call setup requests by both nodes are treated as a failure.

In order to reduce the aforementioned collision problem of resource requests, one AAL2 node has ownership in each virtual path, and numbers are sequentially assigned to each virtual channel belonging to the virtual path. According to the ITU-T Q.2630 standard, when a node, which is the owner of one virtual path, wants to reserve the use of a virtual channel belonging to the virtual path, the allocated number is reserved in descending order and the owner of the corresponding virtual channel. Non-nodes reserve the virtual channels belonging to them in high order. This greatly reduces the likelihood of conflicting resource requests by the two nodes about the same resource.

However, even with the conventional method of allowing the virtual channel to be sequentially reserved according to the presence or absence of ownership, there is still a possibility of a collision regarding resource request. For example, if two AAL2 nodes continue to make reservations sequentially for each virtual channel belonging to one virtual path, at some point, both nodes may make a call setup request for the same resource and, as a result, a collision of resource requests. This will occur. At this time, both call setup requests for the same resource are treated as failures, thereby reducing the efficiency of resource usage.

Accordingly, there is a need for a processing method capable of satisfying each call setup request even when a call setup request for the same resource is collided from two AAL2 nodes.

Therefore, the present invention provides a processing method that can increase resource efficiency by satisfying each call setup request even when call setup requests for the same resource, that is, the same virtual path and virtual channel collide between two AAL2 nodes. do.

According to an aspect of the present invention, there is provided a method for processing a call setup-related message performed in an AAL2 node that has sent a message requesting call setup through a first resource. According to the method of the present invention, after the AAL2 node receives a message requesting call establishment on the first resource, it is determined whether the AAL2 node has ownership on the first resource. If it is determined that the AAL2 node has ownership on the first resource, it sends a release confirmation message that includes information about the available second resource.

According to an embodiment of the present invention, the first resource and the second resource are identified by a path identifier (PI) and a channel identifier (CID), respectively.

According to one embodiment of the present invention, if it is determined that the AAL2 node does not have ownership of the first resource, call establishment through the first resource is established.

According to one embodiment of the present invention, establishing call setup through the first resource further includes transmitting a message approving establishment of the call setup through the first resource.

According to still another aspect of the present invention, there is provided a method for processing a call setup-related message performed at an AAL2 node that has sent a message requesting call setup through a first resource. After receiving the release confirmation message including the information about the second resource, the AAL2 node determines whether the second resource is available. If it is determined that the second resource is available, the AAL2 node sends a message requesting call establishment on the second resource.

According to the present invention, even if a call establishment request collision regarding the same resource occurs from two AAL 2 nodes, at least one call establishment request is accepted and a traffic path is established accordingly, thus greatly improving the call success rate. It is possible to increase network utilization efficiency by eliminating the need for additional call setup.

1 is a flowchart illustrating a process in a case where an AAL2 node receives a call establishment request message according to an embodiment of the present invention.

First, in step 102, the AAL2 node receives a call setup request message that includes information about resource A, where resource A refers to any one virtual path and virtual channel. The AAL2 node then obtains information about resource A from the header of the call establishment request (104). The AAL2 node that has obtained the information about the resource A determines whether the resource A is currently available, that is, a state in which no collision has occurred since no reservation has been made regarding the current resource A (106).

If it is determined in step 106 that resource A is not currently available, that is, if a request for resource A is determined to be currently in conflict, it is determined 108 whether node AAL2 has ownership of resource A (108). . In step 108, if it is determined that node AAL2 has ownership of resource A, it is determined 110 whether there is an available resource B that can replace resource A (110). If it is determined that there is an available resource B, the AAL2 node transmits the information about the resource B to the counterpart node by including it in a partial field of the release confirmation message, for example, an AAL type 2 connection element identifier field (CEID). Here, available resource B refers to a resource that can be used when the AAL2 node receives a message including information about resource A, and may be available resource B if the resource is already released at the time of receiving the message even if the resource is previously used. . If it is determined in step 110 that there is no available resource B, the AAL2 node sends 114 a release confirmation message to the counterpart node that does not include information about the resource.

In step 108, if it is determined that node AAL2 does not have ownership of resource A, node AAL2 reserves that resource A and makes it unavailable to other communication connections (116). Thereafter, the AAL2 node sends a setting confirmation message including the information about the resource A to the counterpart node (118). The AAL2 node then establishes a bearer and establishes a traffic path with the partner node through the resource A (120). On the other hand, if resource A is presently determined in step 106 and the request for resource A has not caused a conflict, then the procedure proceeds to step 116.

2 is a flowchart illustrating a processing process when an AAL2 node receives a release confirmation message from a counterpart node according to an embodiment of the present invention. release Receiving the confirmation message, the AAL2 node has previously sent a call establishment request message for resource A to the counterpart node.

In step 202, the AAL2 node receives a release confirmation message from the partner node. The AAL2 node then determines (204) whether any of the fields of the received message, for example, the CEID field, contains information about resource B. If it is determined in step 204 that the release confirmation message includes a message for resource B, then node AAL2 determines whether the resource B is currently available (206).

If it is determined in step 206 that resource B is currently available, node AAL2 reserves resource B and then sends a new call setup request message to the counterpart node that includes information about that resource B (208). If it is determined in step 206 that resource B is not currently available, node AAL2 treats the call establishment request as having failed 210.

FIG. 3 is a diagram schematically illustrating a message exchange procedure for call establishment between two AAL2 nodes to communicate with each other according to an embodiment of the present invention. As shown in FIG. 3, the second AAL2 node has ownership over resource A. FIG.

As shown, the first AAL2 node 301 transmits to the second AAL2 node 302 a setup request message 311 containing information about resource A. The second AAL2 node 302 sends a setup request message 312 containing information about resource A to the first AAL2 node 301 before receiving the setup request message 311 sent by the first AAL2 node. do. In another embodiment of the present invention, the second AAL2 node first sends a setup request message containing information about resource A, and then the first AAL2 node sends a setup request message including resource A to the second AAL2 node. can do.

The first AAL2 node 301 receives the setup request message 312 sent by the second AAL2 node 302 before receiving a response to its setup request message 311 from the second AAL2 node 302. . Similarly, the second AAL2 node 302 sends the setup request message 311 sent by the first AAL2 node 301 before receiving a response to its setup request message 312 from the first AAL2 node 301. Receive.

Since the second AAL2 node 302 receiving the setup request message 311 has ownership of resource A, it allocates available resource B instead of the resource A included in the received setup request message 311 and The information is included in the CEID field of the release confirmation message 314 and transmitted to the first AAL2 node 301. If there is no available resource in place of resource A, the second AAL2 node 302 transmits to the first AAL2 node 301 without including any resource in the release confirmation message 314.

On the other hand, the first AAL2 node 302 receiving the setup request message 312 accepts the setup request message 312 received because there is no ownership of the resource A. The first AAL2 node 302 includes the information about the resource A in the setting confirmation message 313 that is a response to the setting request message 312 and transmits the information to the second AAL2 node 302.

When the second AAL2 node 302 receives the setup confirmation message 313 from the first AAL2 node 301, a bearer is established between the first AAL2 node 301 and the second AAL2 302 node for resource A. And the traffic path is opened. That is, call establishment through resource A is successfully processed.

When the first AAL2 node 301 receives the release confirmation message 314 from the second AAL2 node 302, the first AAL2 node 301 extracts information about resource B included in the release confirmation message 314 and extracts information about the resource B. Generates a setup request message 315 including and transmits to the second AAL2 node 302. If no resource is included in the release acknowledgment message 314, the first AAL2 node 301 no longer additionally transmits a setup request message and performs call failure processing.

The second AAL2 node 302 receiving the setup request message 315 including information about resource B sends a setup confirmation message 316 to the first AAL2 node 301 in response to the setup request message 315. can do. When the first AAL2 node 301 receives a configuration confirmation message 316 including information about resource B, a bearer is established between the first AAL2 node 301 and the second AAL2 302 node through resource B. And the traffic path is opened.

As described above, one embodiment of the present invention for understanding the present invention has been described, but as will be appreciated by those skilled in the art, the present invention is not limited to the examples described herein but is not limited to the scope of the present invention. It can be variously modified, reconfigured and replaced. Accordingly, all modifications and changes that fall within the true spirit and scope of the present invention are intended to be covered by the claims.

1 is a flowchart illustrating a process in a case where an AAL2 node receives a call establishment request message according to an embodiment of the present invention.

2 is a flowchart illustrating a process in a case where an AAL2 node receives a release confirmation message from a counterpart node according to an embodiment of the present invention.

3 is a diagram schematically illustrating a message exchange procedure for call establishment between two AAL2 nodes to communicate with each other according to an embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

301, 302: AAL2 node

311, 312, 315: call setup request message

313, 316: Setup confirmation message

314: off Confirmation message

Claims (5)

A method for processing call setup-related messages performed by a second AAL2 node that receives a message requesting call setup through a first resource from a first AAL2 node, Receiving a message requesting call establishment through the first resource at the second AAL2 node; Determining at the second AAL2 node whether the second AAL2 node has ownership on the first resource; And And when it is determined that the second AAL2 node has ownership over the first resource, release including information about a second resource available from the second AAL2 node to the first AAL2 node. Sending a confirmation message, How to handle messages related to call setup. The method of claim 1, And the first resource and the second resource are identified by a pair of a path identifier (PI) and a channel identifier (CID), respectively. The method of claim 1, And if it is determined that the second AAL2 node does not have ownership on the first resource, the second AAL2 node further comprises establishing a call setup through the first resource. . The method of claim 3, Establishing call setup through the first resource further includes sending a message to the first AAL2 node, the second AAL2 node approving establishment of the call setup through the first resource. How to handle related messages. A method for processing call setup-related messages performed by a first AAL2 node that has sent a message requesting call setup through a first resource to a second AAL2 node, Receiving, at the first AAL2 node, a release confirmation message that includes information about a second resource from the second AAL2 node; Determining at the first AAL2 node whether the second resource is available; And If it is determined that the second resource is available, transmitting a message requesting call establishment through the second resource from the first AAL2 node to the second AAL2 node; How to handle messages related to call setup.

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