KR20020055226A - Imt-2000 base station element management subsystem having object-relation type database - Google Patents

Abstract

PURPOSE: An IMT(International Mobile Telecommunication)-2000 operation and maintenance system mounted an object-related database is provided to operate/manage mobile communication network elements by a TMN(Telecommunication Management Network) type as an object-related type. CONSTITUTION: In an object-related database(100), information on elements of all networks constructing a base station(1) or a control station(2) such as a self, a rack, a board, a sub block, etc. is designed and stored as an object-related schema of the TMN type. A TMN agent(200) relays and processes management data to a TMN manager(300) when network management data such as a state or a fault is generated in network elements within the base station(1) or the control station(2), and manages the network elements within the base station(1) or the control station(2) by receiving the network management control data. The TMN manager(300) is connected to the database(100) and the TMN agent(200), and controls the network management operation of the TMN agent(200) and performs a data operation/management operation of the database(100).

Description

IMT-2000 Operational Maintenance System with Object-Relational Database {IMT-2000 BASE STATION ELEMENT MANAGEMENT SUBSYSTEM HAVING OBJECT-RELATION TYPE DATABASE}

FIELD OF THE INVENTION The present invention relates to an International Mobile Telecommunication (IMT) (hereinafter referred to as " IMT ")-2000 Top Level Operational Conservation System for Control Stations, and more particularly to object-relational schema constructed by Object-Relational Schema. Regarding the IMT-2000 operational preservation system equipped with an object-relational database that enables to operate / manage various communication network elements in a Telecommunication Management Network (TMN) method using a database. will be.

As is well known, an object in an object-relationship model applied to a mobile communication system refers to an independently existing object, which includes a base station, a control station, a self, a subsystem, It may be a physically existing object, such as software, or may be a conceptually existing object. On the other hand, the relationship in the object-relationship model applied to the mobile communication system refers to the mutual relationship between the objects to build a database. In addition, the schema described above is a basic framework for accessing a database and is a general term for defining data objects constituting the database, their properties, relations, and constraints on data manipulation and data values.

Conventional Code Division Multiple Access (CDMA) / Personal Communication System (PSC) systems use a relational distributed database in the form of a file system called PLD (Program Loaded Data) to process shape and state / failure data of a mobile communication system. Used. However, the above-described relational distributed database in the form of a file system is not only limited to supporting object-relational modeling currently taken in the TMN method, which is a standard network management system method, but also vulnerable in terms of being more efficient than a using database.

Therefore, in the IMT-2000 system based on the TMN currently under development, the relational distributed database in the conventional CDMA / PSC system cannot be applied, and thus there is a problem in that it is impossible to construct an operation / preservation system using the TMN.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, and an object of the present invention is to equip an object-relational database for operating / managing mobile communication network elements in an object-relational TMN manner. It is to provide the IMT-2000 operation maintenance system.

In order to achieve the above object, the IMT-2000 operation preservation system equipped with the object-relational database of the present invention is an object-relational database in which network elements and information of the elements of the base station or control station are designed and stored in an object-relational schema. ;

If network management data such as a status or a failure occurs in the network elements in the base station or the control station, relay processing is performed, while receiving network management control data such as state change, generation, deletion, and the like, based on the received network management control data. A TMN agent performing management operations on the devices; And

When connected to the object-relational database and the TMN agent, when network management data is received from the TMN agent, the network management operation of the TMN agent is controlled based on the network management information and data management of the object-relational database is performed. It is characterized by consisting of the TMN manager to perform the management operation.

1 is a functional block diagram showing a configuration of an IMT-2000 operation maintenance system equipped with an object-relational database according to an embodiment of the present invention;

FIG. 2 is a diagram illustrating a configuration of an object-relational database in an IMT-2000 operation maintenance system equipped with the object-relational database according to FIG. 1.

<Explanation of symbols for the main parts of the drawings>

100: object-relational database 200: TMN agent

300: TMN Manager (300)

Hereinafter, an IMT-2000 operation maintenance system equipped with an object-relational database according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a functional block diagram of an IMT-2000 operational preservation system equipped with an object-relational database according to an embodiment of the present invention, and an IMT-2000 operational preservation equipped with an object-relational database according to an embodiment of the present invention. The system consists of an object-relational database 100, a TMN Agent 200, and a TMN Manager 300.

The object-relational database 100 is a network element of the base station 1 or the control station 2, that is, all the networks constituting the base station 1 or the control station 2 such as a self, a rack, a board, a sub block, and the like. The information of elements is a database designed and stored in TMN type object-relational schema.

At this time, the object-relational database 100 has a single key (mecId) for the highest network elements of the base station 1 or the control station 2 as shown in FIG. Managed Element Complex Relation (101) stored as a single key (mecId (FK)) for the highest network element linked by a foreign key (FK) to the Managed Object Complex Relation (101). And a managed object relation 102, which is stored as a primary key (mecId (FK) + meId) by combining a single key (meId) for a parent network element below the top network element with the managed object relation (102). ) Is combined with a composite key (mecId (FK) + meId (FK)), each linked with a foreign key (FK), and a single key (equpmentId) for the intermediate network element below the parent network element, resulting in a primary key (mecId (FK)). stored as + meId (FK) + equpmentId and associated with its primary key (mecId (FK) + meId (FK) + equpmentId) An item relation (StpEquipment Relation) 103 in which a single key (ParentEquipmentId) for a network element is stored, and a compound key (mecId (FK) + meId (FK), each linked as an external key (FK) to the element relation (103). ) + equpmentId (FK)) and a single key (equpmentHolderId) for the child network element below the middle network element are combined and stored as primary key (mecId (FK) + meId (FK) + equpmentId (FK) + equpmentHolderId) An instrument holder relation (104) storing a single key (ParentEquipmentHolderId) for another network element associated with its primary key (mecId (FK) + meId (FK) + equpmentId (FK) + equpmentHolderId), and A single key for the lowest network element below the lower network element and the composite key (mecId (FK) + meId (FK) + equpmentId (FK) + equipmentHolderId) linked with the foreign key (FK) to the elementholder relation 104, respectively. (softwareId) is composited and stored as primary key (mecId (FK) + meId (FK) + equpmentId (FK) + equpmentHolderId (FK) + softwareId) At the same time, a Software Relation is stored that stores a single key (ParentSoftwareId) for another network element associated with its primary key (mecId (FK) + meId (FK) + equpmentId (FK) + equpmentHolderId (FK) + softwareId). 105) is designed and constructed as a mutual object-relational schema. Here, the above-described management object complex relation 101 is a relation corresponding to "TOP" of a TMN, and a single key (mecId) for the highest network element is an abbreviation of "Managed Element Complex ID". The single key (meId) is short for "Managed Element ID."

On the other hand, TMN agent 200 relays the network management data such as status, failure, etc. in the network elements in the base station (1) or control station (2) to the TMN manager (300), while the TMN When the network management control data such as state change, creation, deletion, etc. are received from the manager 300, the manager 300 plays a role of managing the network elements in the base station 1 or the control station 2 based on the received network management control data.

In addition, the TMN manager 300 is connected to the object-relational database 100 and the TMN agent 200 and, upon receiving network management data from the TMN agent 200, based on the network management information. It controls the network management operation of the 200 and at the same time serves to perform the data operation / management operation of the object-relational database (100).

Next, an operation process of an IMT-2000 operation maintenance system equipped with an object-relational database according to an embodiment of the present invention having the above configuration will be described.

First, the database manager designs the object-relational database 100 according to the basic concept of the known object-relational schema design and mapping rules of the TMN object model described in Table 1 to the object-relational-based model.

Here, the basic concept of the object-relational schema design described above is, firstly, converting a TMN object model into an object-relational model, and second, table hierarchy, which preserves inheritance hierarchy, and third, association. Association / Aggregation relationship is to access by foreign key, and fourth key attribute is to use single and composite key.

TMN object-oriented model Relational-based model Resource Object Tuple Identification Single unique object identity Name hierarchy (X.500) 1) Single or Composite Key 2) Reference type Classification Class1) Intension: Define structure and behavior of objects of same type 2) Extension: Set of objects of specific type 1) Only define Structure for Relation schema: Relation 2) Relation instance: a setof n-tuples (relationextension) Attribute Type 1) Atomic2) Complex type Atomic and Complex type Relationship Association (Aggregation) Embedded foreign key orAssociaton relation schema

Accordingly, the object-relational database 100 is constructed with an object-relational relation structure as shown in FIG. 2, and all information of all network elements constituting the base station 1 or the control station 2 is an object. Relational connections

As described above, the operation process of the IMT-2000 operation maintenance system in which the object-relational database 100 is constructed and applied is briefly described. First, the TMN agent 200 is located in the base station 1 or the control station 2. When network management data such as a status, a failure, etc. occur in the network elements, it is relayed to the TMN manager 300.

Then, after the TMN manager 300 receives the network management data from the TMN agent 200, the TMN manager 300 controls the network management operation of the TMN agent 200 based on the network management information and at the same time the object-relational database. Perform a data operation / management operation of (100). Thus, the data of the object-relational database 100 is updated.

Subsequently, the TMN agent 200 receives network management control data such as state change, creation, deletion, etc. from the TMN manager 300, and then, based on this, the network elements in the base station 1 or the control station 2 are received. Perform management operations on.

As described above, according to the IMT-2000 operation preservation system equipped with the object-relational database according to the present invention, the operation / management of network elements of the mobile communication system is applied to the next generation mobile communication system by processing the object-relational method of the TMN. In addition to being possible, there is an excellent effect that the operation / management of the mobile communication system is performed more efficiently.

Claims (2)

An object-relational database in which network elements of the base station or control station and information of the elements are designed and stored in an object-relational schema; If network management data such as a status or a failure occurs in the network elements in the base station or the control station, relay processing is performed, while receiving network management control data such as state change, generation, deletion, and the like, based on the received network management control data. A TMN agent performing management operations on the devices; And When connected to the object-relational database and the TMN agent, when network management data is received from the TMN agent, the network management operation of the TMN agent is controlled based on the network management information and data management of the object-relational database is performed. IMT-2000 operational preservation system equipped with an object-relational database, characterized by a TMN manager performing management operations. The method of claim 1, The object-relational database comprises: a management object complex relation in which a single key (mecId) for the highest network elements is stored as a primary key (PK); In the management object complex relation, a single key (mecId (FK)) for a top network element linked with a foreign key (FK) and a single key (meId) for a parent network element below the top network element are combined to form a primary key ( managed object relation stored as mecId (FK) + meId); A composite key (mecId (FK) + meId (FK)) linked to a foreign key (FK) in the management object relation and a single key (equpmentId) for an intermediate network element below an upper network element are combined and a primary key (mecId). An item relation in which a single key (ParentEquipmentId) for another network element, which is stored as (FK) + meId (FK) + equpmentId) and associated with the primary key (mecId (FK) + meId (FK) + equpmentId), is stored; The composite key (mecId (FK) + meId (FK) + equpmentId (FK)) linked with the foreign key (FK) to the element relation and the single key (equpmentHolderId) for the lower network element below the intermediate network element are combined. Is stored as a primary key (mecId (FK) + meId (FK) + equpmentId (FK) + equpmentHolderId), and at the same time another primary associated with that primary key (mecId (FK) + meId (FK) + equpmentId (FK) + equpmentHolderId) An item holder relation in which a single key (ParentEquipmentHolderId) for a network element is stored; And A composite key (mecId (FK) + meId (FK) + equpmentId (FK) + equipmentHolderId) linked to the element holder relation as a foreign key (FK), respectively, and a single key (softwareId) for the lowest network element below the lower network element. ) Is stored as a primary key (mecId (FK) + meId (FK) + equpmentId (FK) + equpmentHolderId (FK) + softwareId) and at the same time its primary key (mecId (FK) + meId (FK) + equpmentId (FK) IMT-2000 with an object-relational database, characterized in that a software relation with a single key (ParentSoftwareId) for another network element associated with) + equpmentHolderId (FK) + softwareId) is constructed as a mutual object-relational schema. Preservation system.