KR100332415B1 - A method of consisting radio-port information for optical transmission system - Google Patents

Abstract

The present invention is to easily manage, operate and maintain when the terminal station components of the synchronous optical transmission equipment is changed, when the terminal station configuration information stored in the database of the network management system is changed; Extracting an identifier of a newly added terminal station from the system description table and storing the identifier in the terminal station frame meta table to generate a unique identification number of the terminal station; A second step of storing position information of a rack and a shelf constituting the terminal station from a frame meta table configured in a database using an identifier of the terminal station and a unique identification number of the terminal station; A third step of extracting and storing slot information belonging to each self constituting the terminal station from a slot description meta table configured in the database; A fourth step of extracting and storing unit information mounted in slots of each shelf constituting the terminal station from a unit description meta table configured in the database; And a fifth step of extracting and storing the information of the LED configured in the slot from the LED description meta table configured in the database.

Description

{A METHOD OF CONSISTING RADIO-PORT INFORMATION FOR OPTICAL TRANSMISSION SYSTEM}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to component information management for multiple terminal stations (Multiplexor or Network Element (NE)) of synchronous optical transmission equipment. In particular, different configuration information of multiple terminal stations is stored in a database of a centralized management apparatus. By managing the data in the form of a meta data table, it is possible to easily and consistently manage configuration information of different terminal stations, and to relate to a method of managing terminal station configuration information applicable to other optical transmission equipment.

Optical transmission equipment converts data or voice signal to digital optical signal and transmits it through optical cable.By using broadband characteristics of optical signal, it can simultaneously transmit a large number of communication channels to a long distance with low power. have. As described above, since signals or data by multiple communication channels are simultaneously transmitted, smooth operation and continuous maintenance of optical transmission equipment are one of very important problems.

As described above, since the optical transmission equipment simultaneously transmits signals corresponding to a plurality of communication channels using one optical cable, a network management system (NMS) for maintaining and operating the equipment has a plurality of characteristics. It is very important that the information of the components that each terminal station configures is made into a database and managed consistently, and that it is easy to control and manage the replacement of each component or component. The data created to easily identify the structure corresponding to the component is called metadata (Meta Data), and the metadata is configured to form the above metadata in a table form.

Hereinafter, a method for managing terminal station configuration information in an optical signal transmission apparatus according to the prior art will be described with reference to the accompanying drawings.

Attached to explain the prior art, Figure 1 is a connection diagram of each terminal station and network management system in the optical signal transmission equipment according to an example.

Referring to FIG. 1, as an example, the digital optical transmission apparatus has a linear mode connection method in which each terminal station (NE or Multiplexor) is connected in a straight line state, and an annular mode connection method in which a circular shape is connected. The mode connection method is a terminal station for inputting / outputting a signal of a corresponding channel, and a terminal multiplexer (TM) (10, 15) connected to both ends through an optical cable,

A plurality of add drop multiplexers (ADMs) 20 and 25 connected and configured between the terminal terminal stations 10 and 15;

The annular mode connection method includes a plurality of ring multiplexers (RMs) 31, 32, 33, 34, 35, and 36, each connected or connected in a circular manner through an optical cable;

Local area network (LAN) 40 for interconnecting or connecting a plurality of terminal stations connected in the linear mode connection method and a plurality of terminal stations connected in the annular mode connection method, and the LAN 40 And a network management system (NMS) 50 for centrally managing a plurality of terminal stations by a linear mode connection and an annular mode connection.

A network management system (NMS or EMS: Element Management System) 50 for intensively managing, smoothly operating and maintaining multiple terminal stations (NE or Multiplexors) having the above-described configuration may be classified according to functional classification of components. Graphic User Interface (GUI) module, application module and database module (DB) can be largely divided into, each of the configuration information for a plurality of terminal stations (NE) in the database module Store and manage them individually.

Each terminal station (NE or Multiplexor) is remotely connected through an optical cable, and the configuration of each terminal station (NE) by the different communication channel acceptance status of the region where each terminal station (NE) is located The information is also different. The network is also connected to an end terminal terminal (TM) 15 connected in a linear mode and a plurality of addrop terminals (ADM) 20 and 25 and a LAN 40 connected in between. A terminal terminal station (TM) 10 connected directly to a management system (NMS or EMS) 50, connected in annular mode and directly with the network management system (NMS or EMS) 50 via the LAN 40 Ring terminal station (RM) 31 to be connected, a plurality of ring terminal stations (32, 33, 34, 35, 36) connected in an annular shape with the ring terminal station 31, the components of each terminal station is slightly There is a difference.

According to the prior art as described above, each configuration information for the multiple terminal station (NE) has to be directly inputted individually to the database of the network management system 50 by an operator or the like.

That is, among the plurality of terminal stations NE, for example, a change occurs in the subscriber capacity of the ring terminal station (RM) 35 or the terminal terminal station (TM) 15 which is one terminal station (NE). Thus, when additionally adding, removing or replacing the necessary components or components, the operating personnel of the network management system (NMS) 50 is configured of the terminal station (35, 15) recorded and stored in the database Since the information must be reconstructed and input individually, there was a very troublesome task.

Therefore, when the number of subscribers changes from time to time, and the components of the terminal station change from time to time, in particular, for example, if the number of subscribers decreases in one region, the number of subscribers increases in the other region, so the environment changes in a plurality of terminal stations Can occur at the same time, the operator has to spend a lot of time and effort to change the contents of the database of the network management system 50. In addition, there is an error in the input data of the database If it occurs, the maintenance of the system does not proceed normally, which is a problem of lowering the reliability.

The present invention manages the terminal station configuration information of the synchronous optical transmission equipment in the form of a meta table by meta data in a database of a network management system, thereby using and configuring a data table structure corresponding to the component. It is an object of the present invention to provide a method for managing terminal station configuration information of optical transmission equipment that can be managed and maintained quickly and easily when an element is changed and immediately applicable to other types of systems.

In order to achieve the above object, the present invention provides a terminal station configuration information management method of the optical transmission equipment; The network management system stores the configuration information of the terminal station to be managed in a database, and manages a new terminal station using the stored terminal station configuration information in other modules except the database, When the terminal station configuration information stored in the database is changed; Extracting an identifier of a newly added terminal station from the system description table and storing the identifier in the terminal station frame meta table to generate a unique identification number of the terminal station; A second step of storing position information of a rack and a shelf constituting the terminal station from a frame meta table configured in a database using an identifier of the terminal station and a unique identification number of the terminal station; A third step of extracting and storing slot information belonging to each self constituting the terminal station from a slot description meta table configured in the database; A fourth step of extracting and storing unit information mounted in slots of each shelf constituting the terminal station from a unit description meta table configured in the database; And a fifth step of extracting and storing the information of the LED configured in the slot from the LED description meta table configured in the database.

1 is a connection diagram of each terminal station and a network management system in an optical transmission apparatus according to an example;

2 is a terminal station frame meta table structure diagram in which a unique identification number is additionally recorded according to the present invention;

3 is a structural diagram of extracting the corresponding rack and self information of the terminal station from the frame meta table according to the present invention and recording them in the slot unit meta table;

4 is a structural diagram of extracting corresponding slot information of a terminal station from a slot description meta table according to the present invention and recording it in a slot unit meta table;

5 is a structural diagram of extracting the corresponding unit information of the terminal station from the unit description meta table according to the present invention and recording it in the slot unit meta table;

FIG. 6 is a structural diagram of extracting the LED information mounted in the corresponding slot from the LED description meta table according to the present invention and recording it in the LED meta table.

7 is a flowchart illustrating a method for managing terminal station configuration information of an optical transmission device according to the present invention.

Explanation of symbols on the main parts of the drawings

10,15 terminal terminal 20,25 ad drop terminal station

31,32,33,34,35,36: ring terminal station 40: LAN

50: network management system

Hereinafter, with reference to the accompanying drawings will be described a terminal station configuration information management method of the optical transmission equipment according to the present invention.

Attached to explain the present invention, FIG. 2 is a terminal station frame meta table structure diagram in which a unique identification number is additionally recorded according to the present invention, and FIG. FIG. 4 is a diagram illustrating a structure of extracting self information from the slot description meta table and extracting the corresponding slot information of the terminal station from the slot description meta table and recording the information into a slot unit meta table. Is a structural diagram of extracting the corresponding unit information of the terminal station from the unit description meta table according to the present invention and recording the corresponding unit information in the slot unit meta table. FIG. 6 is mounted in the corresponding slot of the terminal station from the LED description meta table according to the present invention. Extraction of the LED information is a structure diagram for recording in the LED meta table, Figure 7 the present invention Is a flowchart of a method for managing terminal station configuration information of an optical transmission apparatus.

Referring to the drawings, a method for managing terminal station configuration information of an optical transmission device according to an embodiment of the present invention will be described. FIGS. 2 to 6 are basic configurations of a corresponding terminal station recorded in a database of an optical transmission device network management system. FIG. 7 is a flowchart illustrating a method for managing terminal station configuration information of an optical transmission apparatus according to the present invention. FIG. / NMS) After extracting information on the terminal station (NE) whose component is changed from the system description (SYSTEM_DESC) meta table recorded and managed in the database of 50, the terminal station in the form of metadata (Meta Data) (NE) a first step (S10) of supplementing the meta table and allocating a unique (ID) identification number to the terminal station (NE) to be changed or added, and inputting a corresponding unique name;

Rack and Self (NE) for the terminal station (NE) whose components are changed or added from the frame description (DEFAULT_FRAME) meta table recorded and managed in the database of the network management system (EMS / NMS). A second step (S20) of extracting information of the Shelf and generating and managing a slot unit meta table of a meta table type;

Self slot for the terminal station (NE) whose component is changed or added from the slot description (SLOT_DESC) meta table recorded and managed in the database of the network management system (EMS / NMS) 50. A third step (S30) of extracting the information and supplementing the slot information in the slot unit meta table in the form of metadata (SLOT_UNIT);

Extract unit information about the terminal station (NE) whose component is changed or added from the meta table (DEFAULT_UNIT) recorded and managed in the database of the network management system (EMS / NMS). A fourth step S40 of supplementing unit information to a slot unit meta table in the form of meta data;

The unit LED description (UNIT_LED_DESC) meta table recorded and managed for the LED (Light Emitting Display) of the corresponding terminal station (NE) in a database of the network management system (NMS / EMS) 50. A fifth step (S50) of managing the LED table in the form of metadata by extracting the LED information of the terminal station NE in which the component is changed or added from the metadata;

Determining whether all of the above steps are normally performed, if not performed normally, fed back to the first step (S10) to the sixth step (S60) to manage the meta data as a whole again (S60) It is composed of

Hereinafter, the terminal station configuration information management method of the optical transmission equipment for the above configuration of the present invention will be described in detail with reference to the accompanying drawings.

Synchronous optical signal transmission device for transmitting and receiving data transmitted synchronously, a plurality of terminal stations (NE: Network) that is directly connected to the optical cable to transmit the optical signal for communication to the optical cable, and receives the optical signal for communication from the optical cable For normal operation management and maintenance of the elements), a network management system (EMS / NMS) 50 capable of centrally managing the total square ratio is provided.

The network management system (EMS / NMS) 50 is a GUI (Graphic User Interface) module that checks the control command input and the result by contacting the operator with a graphic (Graphic) largely, the square ratio as a whole It includes an application module consisting of a program for operating and managing, and a database (Data Base) module for managing all data.

The network management system 50 manages configuration information and operation status of all terminal stations NE, and performs necessary control, and the necessary commands and data are input by the operator and the result is notified through a monitor or the like. By giving, if the configuration content of a specific terminal station NE is changed or the terminal station NE is newly added, the operator directly inputs the necessary configuration information into the database initially.

In one embodiment, by inputting the basic information of the terminal station (NE) with the component changed by the operator directly into the database, the operator drives a control command, so that the corresponding program of the application module terminal by the input basic data Corresponding to the components of the station, a Meta Data Table is constructed to easily check the structure and perform the corresponding processing.

Referring to FIG. 2, as an example, when the terminal station NE of the Gangnam telephone station is added to the synchronous optical signal transmission device SDH 155 in the Seoul area, the terminal station meta table is generated by the action of the application module. A unique identification number (NE ID) for the Gangnam telephone station is automatically generated and managed in the (NE Meta Table) (S10). At this time, the name of the terminal station (NE) is directly input by the operator to the database of the network management system (EMS / NMS) (50).

In the second step, a system unique identification number (system_id) from a frame meta table of a database for the terminal station (NE) by a control command input by an operator of the network management system 50. Data of the new meta table in the form of Meta Data that can easily identify and process the components of the device such as frame number (frame_num), self number (shelf_num), and rack number (rack_num). The file (Data File) is configured as shown in FIG. 3 and separately stored and managed (S20).

In the third step, as shown in the attached FIG. 4, the information related to the self of the corresponding terminal station NE is added from the slot description (SLOT_DESC) meta table stored and managed in the network management system 50. The extracted data are extracted, inputted and managed in the slot unit meta table which is processed and managed in the second step (S20) (S30).

In the fourth step, as shown in FIG. 5, a slot is associated with the terminal of the terminal station NE from the unit description (UNIT_DESC) meta table and the unit (DEFAULT_UNIT) meta table which are input and managed in the database. The information of the corresponding unit mounted in the slot is extracted and added to the slot unit meta table to be supplemented (S40).

In the fifth step, the LED description (LED_DESC) meta table and the unit LED description (UNIT_LED_DESC) meta table, which is an information management table for the LED display device managed in the database of the network management system 50, from the meta table. By extracting all the information on the LED of the unit processed in the form of meta data by the fourth step (S40), and stores and manages as shown in Figure 6 attached to the LED meta table (S50). .

In the sixth step, whether the meta table management in the form of metadata (Meta Data) by the first step (S10) to the fifth step (S50) has been successfully performed, otherwise, the first step Feed back to (S10) to perform all the above steps again, and if completed normally proceeds to the end step (S60).

Accordingly, in the method for managing the configuration information of the optical signal transmission equipment terminal station (NE) according to the present invention having the above configuration, the data of the component of which the operator is changed is directly input into the database of the network management system 50, and the meta By reconstructing the necessary data in the form of data to configure and manage a separate meta table file that corresponds to the components of the device and can easily check the structure of the device and the corresponding processing, If a component is changed or modified, only the basic data corresponding to the same need to be modified. Therefore, it is not necessary to newly input all the configuration information of the terminal station NE to be modified as in the conventional art, and for other terminal stations NE. In addition, the configuration information can be managed in a consistent form, and it can be easily applied to managing each configuration information of other equipment.

The technique of the present invention as described above can be easily, quickly and accurately organize and manage the configuration of each terminal station of the synchronous optical transmission equipment by reconstructing the component information of the terminal station stored in the database in a table form by metadata In addition, since it can be managed in a consistent form, it is possible for the operating personnel to accurately grasp the change of the components, thereby improving the industrial management and maintenance reliability.

Claims (3)

In the terminal station configuration information management method of optical transmission equipment, The network management system stores the configuration information of the terminal station to be managed in a database, and other modules except the database manage the new terminal station using the stored terminal station configuration information. Terminal station configuration information management method. The terminal station configuration information stored in the database of the network management system is changed. A first step of extracting an identifier of a newly added terminal station from a system description table and storing the identifier in a terminal station frame meta table to generate a unique identification number of the terminal station; A second step of storing the position information of the rack and the self constituting the terminal station from the frame meta table configured in the database by using the identifier of the terminal station and the unique identification number of the terminal station; A third step of extracting and storing slot information belonging to each self constituting the terminal station from a slot description meta table configured in the database; A fourth step of extracting and storing unit information mounted in a slot of each shelf constituting the terminal station from a unit description meta table configured in the database; And a fifth step of extracting and storing the information of the LEDs configured in the slots from the LED description meta table configured in the database. The method of claim 2, Determining whether all of the above steps are normally performed, if not performed normally, returning to the first step, and if the steps are normally performed, further comprising the step of proceeding to the end step. Information management method.