KR20010068799A - Method for using v5.2 protocol of remote system - Google Patents

Abstract

PURPOSE: A method for remotely controlling a system using a V5.2 protocol is provided to extend a V5DL address without using another maintenance device, so as to control an access network connected with an exchange by using one maintenance device. CONSTITUTION: A system extends a V5.2 interface functional model and a protocol, and previously adds a maintenance protocol between an access network(814) and an exchange. The system controls and manages the access network(814) through the maintenance protocol in the exchange. An exchange trunk(812) is connected with the access network(814) through a V5.2 protocol, and the exchange trunk(812) is connected with a maintenance/operation device(816).

Description

Remote system control method using V5.2 protocol {METHOD FOR USING V5.2 PROTOCOL OF REMOTE SYSTEM}

The present invention relates to a system using the V5.2 protocol, and more particularly to a remote system control method using the V5.2 protocol.

The V5.2 protocol is used as a protocol for interworking between the exchange and the access network product that wants to connect to the exchange in a standard way. That is, the V5.2 protocol is a protocol defined to exchange various signaling information between a Local Exchange (LE) and an Access Network (AN) device on a V5.2 interface. The V5.2 protocol consists of five Layer 3 protocols: Public Signaling Telephone Network (PSTN) protocol, control protocol, link control protocol, bearer channel connection (BCC) protocol, and protection protocol.

The V5.2 protocol enables the exchange of data between exchanges and access network devices in multi-octet messages over up to three communication channels on a physical 2,048 Kbit / sec E1 link base.

1 is a diagram illustrating a functional model of a V5.2 interface between a conventional local exchange and an access network, and FIG. 2 is a V5.2 protocol structure diagram of FIG. The functions of the V5.2 interface between the local exchange (LE) 102 and the access network (AN) 104 include bearer channels, integrated services digital network-D (ISDN-D) channel information, PSTN signal information, control protocol information, This is achieved by sending and receiving link control protocol information, protection protocol information, and bearer channel connection information timing information.

3 is a diagram illustrating a coding state of a conventional V5DL address. Referring to Figure 3, the V5DL address consists of 13 bits in total and a range from 0 to 8175 is used to identify the ISDN user port on the V5 interface. The values 8176 through 8191 are reserved and used to identify the data link services provided to layer 3 in V5 layer 2.

In general, a physical signal required by an exchange is converted into a logical signal and sent to a V5DL address, or a logical signal loaded on the V5DL address can be processed as a physical signal. Thus, the exchange and access network products are separate products but have the advantage of being able to interact using a common V5.2 protocol. However, from a maintenance standpoint, mutual control is not possible and a separate maintenance device is needed.

4 is a view for explaining a problem in the operation maintenance aspects of the conventional V5.2 interface between the local exchange and the access network. Referring to FIG. 4, the switchboard trunk 412 and the access network 414 are connected in a V5.2 protocol, each connected to separate maintenance and operation devices 416 and 418. The exchange and access network are closely related to each other when they are connected, but it is difficult to use the same maintenance equipment or the same data in the system configuration. In addition, when connecting to an access network located at a long distance, there is a problem of using a dedicated network or connecting to an environment combined with a system alone.

Accordingly, an object of the present invention is to expand and use the V5DL address without using a separate maintenance device in order to solve the above problem, and to control and manage an access network connected to the exchange using one maintenance device. .2 Provides a remote system control method using the protocol.

In order to achieve the above object, the present invention provides a remote system control method using a V5.2 protocol of an access network and an exchange period, and extends the V5.2 interface functional model and protocol to maintain the access network and an exchange period. And a step of adding a protocol in advance, and controlling and managing the access network through the maintenance protocol at the exchange.

1 is a functional model of a V5.2 interface between a conventional local exchange and an access network.

2 is a V5.2 protocol structure diagram of FIG.

3 is a diagram illustrating a coding state of a conventional V5DL address;

4 is a view for explaining a problem in terms of operation maintenance when a V5.2 interface between a conventional local exchange and an access network;

5 illustrates a functional model of a V5.2 interface between a local exchange and an access network according to an embodiment of the present invention.

6 is a V5.2 protocol structure diagram of FIG.

7 is a diagram illustrating a coding state of a V5DL address according to an embodiment of the present invention;

8 is a view for explaining the characteristics of the operation maintenance aspects in the V5.2 interface between the local exchange and the access network according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, specific details such as specific components are shown, which are provided to help a more general understanding of the present invention, and it is understood that these specific details may be changed or changed within the scope of the present invention. It is self-evident to those of ordinary knowledge in Esau.

FIG. 5 is a diagram illustrating a functional model of a V5.2 interface between a local exchange and an access network according to an embodiment of the present invention, and FIG. 6 is a V5.2 protocol architecture diagram of FIG. The function of the V5.2 interface between the local exchange (LE) 502 and the access network (AN) 504 is the same as the conventional bearer channel, integrated services digital network-D (ISDN-D) channel information, PSTN signal information, and control. This is achieved by exchanging protocol information, link control protocol information, protection protocol information, and bearer channel connection information timing information. In this case, the local exchange 502 and the access network 504 further exchange maintenance and control information according to the characteristics of the present invention.

7 is a diagram illustrating a coding state of a V5DL address according to an embodiment of the present invention. Referring to Figure 7, the V5DL address consists of 13 bits in total and a range from 0 to 8175 is used to identify the ISDN user port on the V5 interface. The values 8176 through 8191 are reserved and used to identify the data link services provided to layer 3 in V5 layer 2. At this time, it can be seen that the maintenance protocol is added to the 8181 according to the features of the present invention.

8 is a view for explaining the characteristics of the operation maintenance aspects in the V5.2 interface between the local exchange and the access network according to an embodiment of the present invention. Referring to FIG. 8, the exchange relay line 812 and the access network 814 are connected in a V5.2 protocol, where the switch network is connected to the maintenance and operation device 816. In this case, since an address for maintenance and control between the exchange and the access network is provided by the expansion of the V52DL address according to the characteristics of the present invention, the access network may be utilized without adding a separate maintenance line.

Hereinafter will be described in more detail the operation according to the present invention. First, a control process of an access network using an extended V52DL address through a preset command (candid message) according to an aspect of the present invention will be described. The process first generates a message at the maintenance device. If the message is then sent to the access network, the exchange side maintenance task sends a candy message with a V52DL address of 8181 through the relay line. In an access network, the V52DL address is sent as a reference to the maintenance task. The maintenance task of the access network thus analyzes and processes the received commands.

The trap reporting process of an access network using an extended V52DL address using a candy message is as follows. First, a message is generated from the maintenance task of the access network. The access network maintenance task sends a candy message with the V52DL address 8181 through the access network trunk. The exchange sends the V52DL address as a reference to the maintenance task. The maintenance task of the exchange thus analyzes and processes the received commands.

The configuration of an access network using a V52DL address extended in accordance with the present invention using a variable string message is as follows. First, a message is generated at the maintenance device. If the message is then sent to the access network in the exchange side maintenance task, a variable message is sent with the V52DL address 8181 through the relay line. In an access network, the V52DL address is sent as a reference to the maintenance task. As a result, the maintenance task of the access network analyzes and processes the received variable strings.

A trap reporting process of an access network using an extended V52DL address using a variable string message is as follows. First, a message is generated from the maintenance task of the access network. The access network maintenance task sends a candy message with the V52DL address 8181 through the access network trunk. The exchange sends the V52DL address as a reference to the maintenance task. The maintenance task of the exchange thus analyzes and processes the received commands.

By the above configuration, remote system control using the V5.2 protocol according to the characteristics of the present invention is achieved.

Meanwhile, in the above description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be defined by the described embodiments, but by the claims and equivalents of the claims.

As described above, the present invention can be used without any separate device for maintenance and control when interworking with the exchange and the access network, and it is also possible to use the same data between the access network and the exchange.

Claims (2)

In the remote system control method using the V5.2 protocol of the access network and the exchange period, Extending the V5.2 interface functional model and protocol to add in advance the maintenance protocol of the access network and the exchange period; And controlling the access network through the maintenance protocol at the exchange. In the remote system control method using the V5.2 protocol in which the access network and the maintenance protocol of the exchange period are added in advance, When the maintenance device on the exchange side generates a preset message for controlling the access network and configuring the environment, transmitting the message to the access network through the V5.2 interface, thereby causing the access network to perform an operation according thereto; When the preset message for trap reporting is generated from the access network to the exchange side maintenance device, it is transmitted to the exchange side through the V5.2 interface so that the exchange can perform an operation according to the above. Remote system control method.