KR0133622B1 - Method for managing remote system in atm network - Google Patents

Abstract

The present invention relates to an ISDN network service system. When several ISDN packet systems are concentrated in a region, any one ISDN packet system among several ISDN packet systems is set as a host and a unique address of a remote ISDN packet system is assigned to the host. After the registration, the host establishes a virtual call from the host to the remaining remote ISDN packet system through the registered address, and manages each ISDN packet system in the host according to the data transmitted and received through the virtual call.

According to the present invention, an ISDN packet system is designated as a host among a plurality of ISDN packet systems connected through a packet network in an ISDN packet system, and then an address of a remote ISDN packet system is registered and a packet network is defined in an ISDN packet system designated as a host through a registered address. Operation of the remote ISDN packet system is executed by connecting virtual calls through the system, thereby improving the efficiency of the ISDN packet system.

Description

Remote system management method in ISDN network

1 is a block diagram illustrating a packet service system in a conventional ISDN network.

2 is a block diagram of a device for managing a remote ISDN packet system in an ISDN network according to the present invention.

3 is a block diagram of a packet service system in an ISDN network according to the present invention.

Explanation of symbols on the main parts of the drawings

10: Packet network 20A-20N: ISDN packet system

21A to 21N: Packet matching section 22A to 22N: Call processing section

23A to 23N: console matching section 24A to 24N: operation console

30: ISDN exchange 40, 50: subscriber terminal

The present invention relates to an ISDN network service system. In particular, when several ISDN packet systems are concentrated in a region, any one of several ISDN packet systems can be set as a host and a unique address of several remote ISDN packet systems to the host. Remote system management in the ISDN network that manages each remote ISDN packet system in the designated host according to the data transmitted / received through the established virtual call by setting the virtual call from the host to the remaining remote ISDN packet system side through the registered address after registering It is about a method.

Conventionally, as can be seen in FIG. 1 of the accompanying drawings, several ISDN packet systems 20A to 20N for providing services in an ISDN packet network have their own operating consoles 24A to 24N for each ISDN packet system itself. Since a unique address exists and one ISDN packet system has only one address registration function, one ISDN packet system can execute operation management only for itself.

Therefore, when an ISDN subscriber requests a packet service to his ISDN terminal, any ISDN packet system 20A-20N that receives a call request from the ISDN exchanger 22A-22N analyzes the ISDN call that is authorized. A signal for requesting packet service is applied to the packet matching units 21A to 21N. The packet matching units 21A to 21N establish an X.25 level 2 logical link in the packet network 10 in accordance with an applied packet service request signal to connect the ISDN subscriber station requesting the packet service to the packet network 10.

At this time, the console matching unit 23A to 23N manages the state of each channel assigned to its ISDN packet terminal according to the program set in the operation consoles 24A to 24N, and checks the state of the ISDN packet system itself and the ISDN subscriber. Operate and manage service usage time for

As described above, each ISDN packet system provided with a packet service in a conventional ISDN network has an operation console capable of operating and managing each system. Therefore, there is a problem that operation management of an ISDN packet system is inefficiently used.

The present invention has been made in view of the above-described problems, and its object is to designate any one ISDN packet system as a host among several ISDN packet systems when several ISDN packet systems are concentrated in a region, By registering a unique address for the remote ISDN packet system, the host establishes a virtual call (a packet call between the host and the remote ISDN packet system) on each of the remaining remote ISDN packet systems, and then connects to the ISDN packet network from one host. Efficient operation and management of two remote ISDN packet systems.

A feature of the present invention for achieving the above object is to designate any one ISDN packet system as a host when several ISDN packet systems in which a unique address is set are concentrated in a region in a packet service system of an ISDN network. After the first step of registering each address of the remote ISDN packet system to the designated host, the ISDN packet system designated as the host in the first step is to consider each remote ISDN packet system as a packet subscriber through the registered address The second process of establishing a virtual call for connecting the host and the remote ISDN packet system through the packet network, and the virtual call set up after the second process is performed by the ISDN subscriber through the call processing means of the ISDN packet system designated as the host. Each remote ISDN packet registered with the host's console matching means in the same manner as attempting The third step of attempting to connect to the system, and the operation console of the ISDN packet system designated as the host, respectively, manages the operation status of the remote ISDN packet system, manages packet access time, and assigns them according to the data transmitted and received through the virtual packet call. It provides a remote system management method in the ISDN network, characterized in that it comprises a fourth process of analyzing the management of the channel state.

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

2 is a block diagram of an apparatus for managing a remote ISDN packet system in an ISDN network according to the present invention, and FIG. 3 is a block diagram of a packet service system in an ISDN network according to the present invention.

As can be seen in FIG. 2, the present invention provides a packet network 10 for providing a packet service to a subscriber in an ISDN network, a call processing unit 22A, a console matching unit 23A, a packet matching unit 21A, and an operation console. Any ISDN packet system 20A, which is composed of 24A and designated as a host, and a plurality of remote ISDN packet systems 20B to 20N having the same configuration except for the operation console 24A, are provided through respective packet lines. Connected to the packet network 10, each ISDN packet system has its own registered address, and a plurality of addresses can be registered in each ISDN packet system.

At this time, the call processing units 22A to 22N of the host 20A and the plurality of remote ISDN packet systems 20B to 20N receive the ISDN call with the corresponding terminal when the packet service signal of the subscriber station is applied through the ISDN switch 30. Connect. The packet matching units 21A to 21N establish an X.25 level 2 logical link to the packet network 10 through the connected ISDN call to connect the ISDN subscriber who requested the packet service with the packet network 10.

At this time, the packet call connection between the self-pressor ISDN terminal and the ISDN terminal through the packet network 10 allocates an arbitrary channel among a plurality of channels allocated to the ISDN terminal and provides the service through the call processing units 22A to 22N. After recognizing that the called party is its ISDN subscriber, it connects the packet network 10 through its packet matching units 21A to 21N, and its packet matching units 21A to 21N through the packet network 10. Establish a logical link at X.25 level 2 to connect packet communication with the ISDN terminal subscriber who requested the incoming call and the ISDN subscriber who received the incoming call.

The console matching units 23A to 23N manage each channel of the packet network service system, and perform various status checks, service usage time management of ISDN subscribers, and the like.

A remote system operation management operation of the ISDN packet system configured with the above functions will be described.

As shown in FIG. 2, when several ISDN packet systems 20A to 20N are concentrated in one region, a unique address for each ISDN packet system 20A to 20N is registered and a plurality of ISDN packet systems 20A to 20N are registered. By using the function to register the address of the ISDN packet system (20A to 20N), any one of the ISDN packet system 20A is designated as a host, and then the packet network 10 to the operating console 24A of the designated host. The address for each remote ISDN packet system 20B to 20N to be connected is registered.

The host ISDN packet system 20A registered with an address for each remote ISDN packet system 20B to 20N uses the registered address to treat the remote ISDN packet system 20B to 20N as a single packet, and the packet network 10 After establishing a virtual call (packet call between the host and the remote ISDN packet system through the packet network), the remote ISDN packet system 20B to 20N and the designated host ISDN packet system 20A connected to the packet network 10 are established. Connect

At this time, the virtual call is remote from its address registered in the console matching unit 23A of the host ISDN packet system 20A as if the ISDN subscriber initiated the packet call in the call processing unit 22A of the host ISDN packet system 20A. At each remote ISDN packet system 20B to 20N registered as an attempt, this virtual call (packet call over the packet network) is not actually a physical channel, but a virtual packet call (connection of the packet network and packet network). do.

When the virtual call between the designated host ISDN packet system 20A and several remote ISDN packet systems 20B to 20N connected to the packet network 10 is connected, the operation console 24A of the host ISDN packet system 20A is connected to the virtual call. The call manages the operation status of each remote ISDN packet system 20B to 20N, packet network connection time, and channel connection status of the ISDN packet system.

As an example, as can be seen in Figure 3 of the accompanying drawings, ISDN packet call processing is the ISDN if the ISDN X.25 terminal A (40) or ISDN X.25 terminal B (50) accesses the packet network 10 The exchange 30 connects the signal requesting the ISDN packet service to the trunk line to the ISDN packet system 20 through switching.

If the call processing unit 22 of the ISDN packet system 20 designates an arbitrary channel among all channels allocated according to the packet network 10 access request signal applied through the trunk line and applies it to the packet matching unit 21 side, The packet matching unit 21 establishes a X.25 level 2 logical link through an assigned designated channel to connect the packet network 10 and the ISDN subscriber X.25 terminal A 40 to each other. It is formed in a state where data transfer is possible.

In addition, when ISDN X.25 terminal A 40 wants packet communication to ISDN X.25 terminal B 50, the packet communication request signal of ISDN X.25 terminal A 50 passes through ISDN switch 30 to ISDN. The call processing unit 22 of the packet system 20 is applied.

If the call processing unit 22 of the ISDN packet system 20 designates an arbitrary channel among all channels allocated according to the applied packet communication request signal and applies the packet communication request signal to the packet matching unit 21, the packet is transmitted. The matching section 21 establishes a logical link of level X.25 level 2.

At this time, since the request for packet communication is an incoming party, a logical link setting request of X.25 level 2 is applied from the packet network 10 to the packet matching unit 21 of the ISDN packet system 20, and the packet matching unit ( 21), the logical link of the X.25 level 2 is set, and an arbitrary channel is designated among all the allocated channels and applied to the ISDN exchanger 30 again through the designated channel, and the ISDN exchanger 30 performs a switching operation. After the ISDN X.25 terminal B 50 is connected, packet data communication is performed.

At this time, the general matters such as packet service time, channel management of ISDN packet system, and state management are operated in the console matching unit 23 of any ISDN packet system 20 designated as a host.

As described above, the present invention designates an arbitrary ISDN packet system as a host among several ISDN packet systems connected through a packet network, registers an address of a remote ISDN packet system, and connects a virtual call through the packet network through the registered address. By performing the operation management of the remote ISDN packet system to improve the efficiency of the operation of the ISDN packet system connected to the ISDN network.

Claims (1)

In the packet service system of ISDN network, if several ISDN packet systems with unique addresses are concentrated in one region, designate any one ISDN packet system as a host and then assign each address of the remote ISDN packet system to the designated host. In the first step of registering and the ISDN packet system designated as the host in the first step, each remote ISDN packet system is regarded as one packet subscriber through the registered address, and then the host and the remote ISDN packet system are connected through the packet network. The second process of establishing a virtual call for the second call, and the virtual call set up after the second process is performed by the console matching means of the host in the same operation as the ISDN subscriber attempts a packet call through the call processing means of the ISDN packet system designated as the host. The third step of attempting to access each remote ISDN packet system registered in The operation console of the ISDN packet system is a fourth process of analyzing the operation status of the remote ISDN packet system, packet access time management and management of each assigned channel status according to the data transmitted / received through the connected virtual packet call. Remote system management method in the ISDN network comprising a.