KR100237396B1 - Centralized path control method for ATM switching system - Google Patents

Abstract

The present invention uses a centralized path control method of a routing method of a distributed high-capacity ATM switching system having a blocking switch structure or a multi-stage switch structure to establish a path from an originating subscriber to a destination subscriber. It relates to a control method. The conventional method manages the added resources and has a problem in that it is impossible to establish an internal path of the switch with reference to this. An object of the present invention is to set an optimal path from an originating subscriber to a destination subscriber and efficiently manage network resources in response to a subscriber request in an ATM switching system having a multi-stage switch structure. The feature is that if the switch link path control block of the operation / conservation processor is requested to route the call from the called party's call / connection control processor, the central switch internal link is selected from the central switch internal link band management table, and the outgoing switch link and / or Determine the destination switch link from the switch link band management table, select the originating access switch internal link from the access switch internal link band management table, select the destination side access switch internal link from the access switch internal link band management table, and Update usage to the tables and send a routing success message to the called party / connection control processor. The present invention has the effect that it can be used in common in all kinds of call / connection.

Description

Centralized path control method for ATM switching system

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a centralized path control method for an asynchronous transfer mode (hereinafter, referred to as ATM) switching system, and more particularly to a blocking switch structure or a multi-stage switch structure. The present invention relates to a path control method of a calling party and a called party that sets a path from an originating subscriber to a called subscriber using a centralized path control method among distributed routing methods of a distributed high-capacity ATM switching system.

In general, a large-capacity ATM switching system is required to establish the infrastructure for broadband comprehensive telecommunication service. In addition, in a large-capacity ATM switching system that processes and exchanges data at high speed, a limited resource is shared by multiple users. Therefore, efficient network resource management and optimal routing function are required. In particular, the implementation of such a function in an ATM switching system having a distributed structure is a very important factor in determining the performance and efficiency of the system.

1A is a block diagram of a switch module constructed by using a unit switch having an arbitrary size. Referring to FIG. 1A, a configuration of a switch module configured by using a unit switch having an arbitrary size is as follows.

This shows a unit switch consisting of one stage with N input ports and N output ports. In the conventional exchange system, a unit switch is usually used as a unit switch of each sub system (access local sub system, access central sub system). . Therefore, since there were no resources to manage in the sub-system of the switching system, only the switch link resources connecting each sub-system were managed, and the switch internal path was set with reference to their management status.

FIG. 1B is a configuration diagram of a switch module in which a size of a switch is expanded by using the unit switch of FIG. 1A. Referring to FIG. 1B, the configuration of the switch module in which the size of the switch is expanded by using the unit switch of FIG. 1A will be described.

This is a switch module that extends the size of the switch to M × M (M >> N) by using the unit switch of FIG. In constituting this switch module, first, K (= M / N) K vertically arranged N × N unit switches are arranged horizontally. Then, the input and output links of each unit switch are shuffled so that they are constantly mixed. Finally, by connecting them, a switch module of M × M is configured. In this structure, although the unit switch itself has a non-blocking characteristic, the switch module is changed to a blocking switch in which blocking occurs in the shuffled link inside. 2 is a block diagram of an ATM switching system using a multi-stage switch. Referring to Figure 2 will be described the configuration of the ATM switching system using a multi-stage switch.

This shows a configuration of an ATM switching system having a multistage switch using the switch module defined in FIGS. 1A to 1B and having a switch network configured as described above. The decentralized ATM switching system is composed of an Access Local Subsystem and an Access Central Subsystem. In the ATM switch area of the access local subsystem and the access central subsystem, the switch module shown in FIG. 1B is mounted, which is called an access switch and a central switch, respectively. In addition, each subsystem has processors that handle the main processing functions of the ATM switching system.The processors located in the access local subsystem operate the Call & Connection Control Processor and the processors located in the access central subsystem operate. Called Operation & Maintenance Processor. The exchange system shown in FIG. 2 can mount up to x access local subsystems, thus up to j central switches can be mounted in the access central subsystem. However, as the switches in each sub system have a multi-stage structure, resource management for the switch module internal links existing in each sub system as well as the switch link resources connecting between each sub system are required. Added data to reference when setting the path. However, the conventional method has a problem in that it is not possible to establish the internal path of the switch by managing the added resources with reference to this.

The present invention for solving the above problems is to set the optimal path from the originating subscriber to the destination subscriber and efficiently manage network resources in response to the subscriber's connection request in the ATM switching system having a multi-stage switch structure.

Features of the present invention for achieving the above object is a switch link band management for managing the band of the switch switch linking the access switch internal link band management table, the central switch internal link band management table and the access local sub-system and the access central sub-system A centralized path control method for an asynchronous transmission mode switching system in which a switch link path control block of an operation / maintenance processor in which a table is located establishes a path, wherein the switch link path control block of the operation / maintenance processor performs routing. Receiving a request from the called party's call / connection control processor, selecting a central switch internal link that satisfies the amount of bands from the central switch internal link band management table, and an originating access local subsystem and an access central subsystem. Outgoing switch link and / or incoming call connecting Determining an incoming switch link connecting a local sub-system and an access central sub-system from the switch link band management table, and used for an internal path formed by the outgoing switch link, the incoming switch link, and the central switch internal link; Selecting an outgoing access switch internal link from the access switch internal link band management table that is connectable to the link and has a margin greater than the amount of the band; Selecting a destination side access switch internal link having an excess bandwidth greater than a positive amount from the access switch internal link band management table and using the bandwidth in the access switch internal link band management table and the central switch internal link band management table and the switch; Update to link band management table And transmitting a routing success message to the called party / connection control processor.

When the switch link path control block of the operation / maintenance processor receives a routing request from the called party's call / connection control processor, the routing request message received by the switch link path control block receives the amount of the bandwidth requested by the subscriber. This is on. The central switch inner link selection step may include a substep of determining whether a link capable of accommodating the amount of the band exists in the central switch internal link band management table, and the satisfactory amount of the band in the determination substep. If it is determined that there is a central switch internal link, the sub-step of selecting the central switch internal link and the determination sub-step, if it is determined that there is no central switch internal link that satisfies the amount of band, a path to the called party's call / connection control processor. It consists of a substep of sending and failing a configuration failure message. The determining of the switch link may include a substep of determining whether the switch link connected through the central switch internal link that is already selected exists in the switch link band management table; A sub-step of determining a switch link connecting the originating access local subsystem and the access central subsystem and a switch link connecting the incoming access local subsystem and the access central subsystem if it is determined to exist in a switch link band management table. And a sub-step of determining whether the central switch internal link band management table is found to the end when it is determined that the switch link does not exist in the switch link band management table in the switch link band management table determination sub-step. link Sub-step of transmitting and terminating a routing failure message to the called party's call / connection control processor when it is determined that the central switch internal link band management table is found to the end in a reverse management table determination sub-step, and the central switch internal link band management table. If it is determined in the determination substep that the central switch internal link band management table has not been found to the end, the sub-step starts from the central switch internal link selection step to find another central switch internal link. The switch link accepts the amount of band and passes through the central switch module, such as the central switch internal link that has already been selected. The originating side access switch inner link selection step may include a substep of determining whether the originating side access switch internal link exists in the access switch internal link band management table, and the originating side in the access switch internal link band management table determination substep. If it is determined that an access switch inner link exists in the access switch inner link band management table, a sub-step of determining the outgoing side access switch inner link; and a call-side access switch inner link in the access switch inner link band management table determination sub-step. If it is determined that does not exist in the access switch internal link band management table, the sub-step of determining whether the central switch internal link band management table is found to the end, and the central switch internal link in the central switch internal link band management table determination sub-step Band Management Table If it is determined that the search is completed, the sub-step of transmitting and terminating a routing failure message to the called party / connection control processor and the determination of the central switch internal link band management table have not found the central switch internal link band management table to the end. If it is determined that the sub-switch starts from the selection step of the center switch to find the other internal switch internal link. The called side access switch inner link selection step may include a sub-step of determining whether the called-side access switch inner link exists in the access switch inner link band management table, and the called side in the access switch inner link band management table determination sub-step. If it is determined that an access switch internal link exists in the access switch internal link band management table, a sub-step of determining the called-side access switch internal link; and a called-side access switch internal link in the access switch internal link band management table determination sub-step If it is determined that does not exist in the access switch internal link band management table, the sub-step of determining whether the central switch internal link band management table is found to the end, and the central switch internal link in the central switch internal link band management table determination sub-step Band Management Table If it is determined that the search is completed, the sub-step of transmitting and terminating a routing failure message to the called party / connection control processor and the determination of the central switch internal link band management table have not found the central switch internal link band management table to the end. If it is determined that the sub-switch starting from the central switch inner sunk selection step to find another central switch internal link.

1A is a configuration diagram of a switch module configured using a unit switch having an arbitrary size;

1B is a configuration diagram of a switch module in which a size of a switch is expanded by using the unit switch of FIG. 1A;

2 is a configuration diagram of an ATM switching system using a multi-stage switch;

3 is a configuration diagram of a control block and data for path control and switch link resource management, and a location diagram of data;

4 is a block diagram of a centralized path control method according to the present invention;

5a to b are flow charts of the centralized path control method according to the present invention.

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

3 is a configuration diagram of a control block and data and a location diagram of data for path control and switch link resource management. 3 is a block diagram illustrating the configuration of the control block and data and the location of data for path control and switch link resource management.

The path setting and switch link related data for the path control from the originating subscriber to the called party and the management of the switch link resource include the central switch internal link band management data, the switch link band management data between the access local subsystem and the access central subsystem, Configuration management data of the access central subsystem connected to the access local subsystem, access switch internal link band management data, and access local subsystem configuration data. They are all located in the operational / conservation processor of the access central subsystem. In addition, all software blocks that control these to perform the actual routing are also located in the operation / conservation processor of the access central subsystem. Software blocks for switch path control and switch link resource management exist as independent blocks named Switch Link Path Control Blocks.

4 is a block diagram of a centralized path control method according to the present invention. Referring to Figure 4 describes the configuration of a centralized path control method according to the present invention.

A setup message requesting call / connection establishment arrives at the call / connection processing block of the originating call / connection control processor from the originating subscriber. The call / connection processing block of the originating call / connection control processor requests the called number translation with the number translation block of the operation / maintenance processor to identify the called party's number, and receives the response from the operation / maintenance processor. The call / connection processing block of the originating call / connection control processor then sends an internal setup message to the called party / connection control processor to request the called party / connection establishment. The call / connection processing block of the incoming call / connection control processor that receives the internal setup message requests the switch link path control block block of the operation / maintenance processor to establish the path from the originating subscriber to the destination subscriber for the path setting of the called party. . The switch link path control block of the operation / maintenance processor sets the optimal path from the originating subscriber to the called party and responds to the called / connection processing block with the set path information.

The call / connection processing block of the called party / connection control processor receiving the routing completion message between the called party from the switch link path control block of the operation / maintenance processor sends the routing completion message to the call / connection of the calling party / connection control processor. Transfer to the processing block. This completes the routing between the calling party and the called party.

5a to b are flowcharts of a centralized path control method according to the present invention. Referring to Figures 5a to b will be described the procedure of the centralized path control method according to the present invention.

This is a routing function flow diagram of a switch link path control block located in the operational / conservation processor. In S1, the switch link path control block of the operation / maintenance processor receives a routing request message from the called party's call / connection control processor using a routing function. Of course, the routing request message includes the BW, which is the amount of bandwidth required by the subscriber. In addition, each access switch internal link band management table, a central switch internal link band management table, and an internal switch link band management table for managing bands of switch links connecting the access local subsystem and the access central subsystem are included in the operation / maintenance processor. It is located. If the switch link path control block of the operation / maintenance processor receives the routing request, in S2 the switch link path control block determines whether a link capable of accommodating the BW exists in the central switch internal link band management table. If it is determined in S2 that there is a central switch internal link that satisfies the BW, S3 selects the link. In operation S4, it is determined whether a switch link connected through the selected central switch internal link exists in the internal switch link band management table. Here, the switch link refers to the switch link connecting the originating access local subsystem and the access central subsystem, and the switch link connecting the incoming access local subsystem and the access central subsystem, which is inside the central switch already selected while accepting the BW. Via a central switch module such as a link. The internal switch link band management table is a table for managing bands of switch links connecting the access local subsystem and the access central subsystem. If it is determined in S4 that the switch link does not exist in the internal switch link band management table, it is determined in S12 whether the central switch internal link band management table is found to the end. If it is determined in S12 that the central switch internal link band management table has been found to the end, or if there is no central switch internal link that satisfies the BW in S2, in S13, the path to the called party's call / connection control processor indicates that the path is failed. Send a setup failure message and complete the routing function. On the other hand, if it is determined in S12 that the central switch internal link band management table has not been found to the end, it starts again from S2 to find another central switch internal link. However, if it is determined in S4 that the switch link exists in the internal switch link band management table, in S5, the switch link and the incoming access local subsystem and the access central subsystem connecting the originating access local subsystem and the access central subsystem are connected. Determine the switch link. In S6, it is determined whether there is an outgoing access switch inner link in the access switch inner link band management table that has a free band larger than the BW and connects to the link used for the calling subscriber and the previously determined inner path. Here, the internal path is a path formed by a switch link connecting the currently determined outgoing access local subsystem and the access central subsystem, a central switch internal link, and a switch link connecting the access central subsystem and the incoming access local subsystem. The originating access switch internal link is an originating access switch internal link that can be connected between originating subscribers. The access switch internal link band management table is an originating access switch internal link band management table. If it is determined in S6 that the originating access switch internal link does not exist in the access switch internal link band management table, the process starts from step S12. However, if it is determined in S6 that the originating access switch internal link exists in the access switch internal link band management table, in S7, an outgoing call capable of connecting to a link used for the calling subscriber and the internal path already determined while having a free band larger than the BW. Determine the side link internal link. In S8, it is determined whether a called party access switch internal link existing in the access switch internal link band management table that has a free band larger than BW and connects with a link used for the calling subscriber and the internal path already determined. If it is determined in S8 that the called party access switch internal link, which has a free band larger than BW and connects to the link used for the internal path already determined by the calling subscriber, does not exist in the access switch internal link band management table, the process is performed from step S12. do. On the other hand, if it is determined in S8 that the called party access switch internal link that has a free band larger than BW and connects to the link used in the internal path determined by the calling subscriber is present in the access switch internal link band management table, then in S9 Determine the destination access switch internal link. This allows the outgoing access switch internal link from the originating subscriber, the switch link connecting the access central subsystem in the outgoing access local subsystem, the central switch internal link, the switch link connecting the access central subsystem and the incoming access local subsystem, and the incoming access. All paths from the switch internal link to the called party have been determined. In S10, the access switch internal link band management table, which is the access switch internal link band management table, the central switch internal link band management table, which is the central switch internal link band management table, and the band of the switch link connecting the access local subsystem and the access central subsystem Band usage is updated in the internal switch link band management table. In S11, a routing failure message is sent to the called party / connection control processor and the routing function of the operation / maintenance processor is completed.

The present invention as described above is a point-to-point and point-to-multipoint Switched Virtual Connection (SVC) connection by the point-to-point and point-to-multipoint signal processed in the ATM switching system, point-to-point and point-to-multipoint PVC by command of the system operator In addition to Permanent Virtual Connection calls / connections, it can be used in all kinds of calls / connections such as existing Public Switched Telephone Network (PSTN), Public Switched Data Network (PSDN), and Frame Relay (FR) calls / connections. It works. As described above, the present invention is effective in that it can be commonly used in all kinds of calls / connections in the ATM switching system having the multi-stage switch structure mentioned above.

Claims (7)

Switch link of the operation / conservation processor where the access switch internal link band management table, the central switch internal link band management table, and the switch link band management table for managing the bands of the switch links connecting the access local subsystem and the access central subsystem A centralized path control method for an asynchronous transmission mode switching system in which a path control block establishes a path, The switch link path control block of the operation / maintenance processor being requested for routing from a called party / connection control processor; Selecting a central switch internal link satisfying the amount of bands from the central switch internal link band management table; Determining, from the switch link band management table, an outgoing switch link connecting an outgoing access local subsystem and an access central subsystem and / or an incoming switch link connecting an incoming access local subsystem and an access central subsystem; An outgoing access switch internal link that is connectable to the outgoing switch link and the link used for the inner path formed by the incoming switch link and the central switch inner link and has a free band greater than the amount of the band; Selecting from a band management table; Selecting, from the access switch internal link band management table, a destination side access switch internal link connectable to the link used for the internal path and having an extra band larger than the amount of the band; And Updating bandwidth usage in the access switch internal link band management table, the central switch internal link band management table, and the switch link band management table, and transmitting a routing success message to the called party's call / connection control processor. Centralized path control method for asynchronous transmission mode switching system. The method of claim 1, When the switch link path control block of the operation / maintenance processor receives a routing request from the called party's call / connection control processor, the routing request message received by the switch link path control block receives the amount of the bandwidth requested by the subscriber. A centralized path control method for an asynchronous transmission mode switching system, characterized in that it is loaded. The method of claim 1, The central switch internal link selection step, Determining whether there is a link in the central switch internal link band management table to accommodate the amount of the band; A sub-step of selecting the central switch internal link if it is determined that there is the central switch internal link that satisfies the amount of the band in the determination sub-step; And And a sub-step of transmitting and terminating a routing failure message to the called party's call / connection control processor when it is determined that there is no central switch internal link that satisfies the amount of bandwidth in the judging sub-step. Centralized path control method for mode switching system. The method of claim 1, The switch link determination step, Determining whether the switch link connected through the selected central switch internal link exists in the switch link band management table; When it is determined that the switch link exists in the switch link band management table in the step of determining the switch link band management table, the switch link and the incoming access local sub system connecting the originating access local sub system and the access central sub system are determined. Determining a switch link connecting the access central subsystem; A sub-step of determining whether the central switch internal link band management table is found to the end when it is determined that the switch link does not exist in the switch link band management table in the sub-step of determining the switch link band management table; A sub-step of transmitting and ending a routing failure message to the called party's call / connection control processor when it is determined that the central switch internal link band management table has been found to the end in the central switch internal link band management table determination sub-step; And If it is determined that the central switch internal link band management table has not been found to the end in the determination of the central switch internal link band management table, the sub-step starts again from the central switch internal link selection step to find another central switch internal link. Centralized path control method for an asynchronous transmission mode switching system, characterized in that made. The method of claim 4, wherein The switch link, Accepts the amount of said band; A centralized path control method for an asynchronous transmission mode switching system, characterized in that through the central switch module, such as the central switch internal link already selected. The method of claim 1, The internal link selection step of the calling side access switch, A substep of determining whether the originating access switch internal link exists in the access switch internal link band management table; A sub-step of determining, by the access switch inner link band management table, the source-side access switch internal link if it is determined that the originating access switch internal link exists in the access switch internal link band management table; In the sub-step of determining the access switch internal link band management table, if it is determined that the originating access switch internal link does not exist in the access switch internal link band management table, the sub-step of determining whether the central switch internal link band management table is found to the end. ; A sub-step of transmitting and ending a routing failure message to the called party's call / connection control processor when it is determined that the central switch internal link band management table has been found to the end in the central switch internal link band management table determination sub-step; And If it is determined that the central switch internal link band management table has not been found to the end in the determination of the central switch internal link band management table, the sub-step starts again from the central switch internal link selection step to find another central switch internal link. Centralized path control method for an asynchronous transmission mode switching system, characterized in that made. The method of claim 1, The incoming side access switch internal link selection step, A sub-step of determining whether the called party access switch internal link exists in the access switch internal link band management table; A sub-step of determining the called-side access switch inner link when it is determined that the called-side access switch inner link exists in the access-switch inner link band management table in the step of determining the access switch inner link band management table; In the sub-step of determining the access switch internal link band management table, if it is determined that the called-side access switch internal link does not exist in the access switch internal link band management table, the sub-step of determining whether the central switch internal link band management table is found to the end. ; A sub-step of transmitting and ending a routing failure message to the called party's call / connection control processor when it is determined that the central switch internal link band management table has been found to the end in the central switch internal link band management table determination sub-step; And If it is determined that the central switch internal link band management table has not been found to the end in the determination of the central switch internal link band management table, the sub-step starts again from the central switch internal link selection step to find another central switch internal link. Centralized path control method for an asynchronous transmission mode switching system, characterized in that made.

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