KR0179511B1 - Optimization method for the mit management in the broadband digital crossconnect switch system - Google Patents

Abstract

The present invention relates to a method for optimizing management information management (MIT) information for each transmission device in slave network management of a broadband circuit distribution system. If the data is object-related creation / deletion data and the data is received from the user interface, the creation-related data is stored in a temporary queue if the object does not already exist in the creation-related data queue, and then a message is generated. If the object does not already exist in the deletion related data queue, the data related to deletion is stored in a temporary queue to create a message, delivered to the transmission device in the slave network, and created if it is received from the transmission device in the slave network. The related data is created if the object exists in the created data queue. After processing according to the result, delete the object from the temporary queue related to creation, and delete related data is processed according to the result of deletion processing if the object exists in the data queue related to deletion, and then delete the object from the temporary queue related to deletion. The deletion process has the effect of optimizing the amount of MIT information to be managed.

Description

Optimization Method of Management of M.I.T.Information Information by Transport Device in Dependent Network Management of Broadband Line Distribution System

1 is a software functional block diagram of a network operation management subsystem to which the present invention is applied.

2 is a schematic operation flowchart of a network management unit to which the present invention is applied.

3 (a) to 3 (c) are flowcharts of an embodiment of an optimization method for managing MIT information for each transmission device according to the present invention.

* Explanation of symbols for main parts of the drawings

1: user interface unit 2: agent unit

3: interface unit 4: database

5: protocol processing unit 6: network management unit

The present invention relates to a method for optimizing management of management information tree (MIT) information for each transmission device in slave network management of a broadband circuit distribution system. In particular, the present invention relates to management information related to object creation / deletion among management information related to slave network transmission devices. It is about the optimization method of managing change efficiently.

With the increase of transport traffic, various and heterogeneous network components emerge, and as the demand for advanced network service becomes more complicated, the requirements for the management of the network are increasing. It was. In this regard, the necessity of managing and maintaining the information of each of the transmission devices connected to the subordinate network is increasing in terms of subordinate network management. In other words, different types of devices are connected to one slave network, and information for each device is managed between devices of a uniform type, and thus technology for individual management of them is required.

Broadband Digital Cross-Connect System (BDCS) is a system that performs standardized integrated management of transmission networks, and manages 15 subordinate networks connected to it as a management function of Telecommunications Management Network (TMN). .

The transmission devices that can be connected to the broadband circuit distribution system are the synchronous digital hierachy (SDH) series of transmission devices such as 2.5Gb / s, 622Mb / s, and 155Mb / s. Taking care of it.

The technical attempt to integrate and operate the currently distributed network operation technology into one subordinate network for such transmission devices is in the implementation stage, and requires a new data management technology in terms of price and efficiency. I'm doing it. That is, since the maximum number of transmission devices that must be managed by the broadband circuit distribution system is 15 * 32, and events and states occurring during operation are different for each device, individual management of MIT (Management Information Tree) for each device is necessary.

The MIT is a management information tree systematically classified by a containment relationship for information on managed objects in the value management system for TMN operation management. Therefore, it can be seen that MIT management for each device is required to manage and manage different states that may occur during operation for each device.

Accordingly, in the present invention, different devices are connected to a broadband circuit distribution system having a slave network management function, and contents of MIT information for each device are different for each device, and objects common to MIT information to be managed for each device are initialized. Its purpose is to provide an MIT information management optimization method that can optimize the amount of information to be managed by managing the management queue for each device only for objects with different contents for each device. .

In order to achieve the above object, the present invention provides a method for optimizing management information management (MIT) information for each transmission device in a slave network management applied to a wideband circuit distribution system. If the received data is object-related creation or deletion data after performing an initialization operation for the first step, the first step of checking where the received data is input: Received from the user interface in the first step, and stores the creation-related data If the created temporary queue is managed and the object does not exist in the queue, the object is stored in the temporary queue, and then a message suitable for the corresponding transmission device is generated and transmitted to the corresponding transmission device in the slave network. If received from the user interface and the received data is deletion-related data, deletion-related data If the search for the deletion temporary queue to manage the storage and the object does not exist in the queue, after storing the message in the temporary queue, and generates a message for the transmission device and transmits the message to the transmission device in the subordinate network: the first step If the data is received from the transmission device in the slave network in the step, and if the data is generated, the temporary queue related to creation is searched. If the object exists, and if the result of the creation process is successful, the data is stored in the MIT information management queue operated by each transmission device. A fourth step of notifying the operator of the result of the storage and deleting the corresponding information in the temporary queue for generation management; and in the first step, if the data is received from a transmission device in the slave network, and the deletion-related data, a temporary queue for deletion. After searching, if the object exists and the deletion process is successful, delete it from the MIT information management queue of the corresponding transmission device and operate the deletion result. Ask comprising the five steps to remove the object from, delete the relevant temporary queue and then announced.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention;

1 is a software functional block diagram of a network operation management subsystem to which the present invention is applied, in which 1 is a user interface unit, 2 is an agent unit, 3 is an interface unit, 4 is a database, 5 is a protocol processing unit, 6 Respectively represents the network management unit.

The network operation management subsystem is mounted on a workstation to realize its functions, and handles management of this device when the subordinate network management and device management related user interface unit (1) and the broadband line distribution system exist as managed objects. The agent unit 2, the interface unit 3 for handling the interface between the functional units, a database 4 for managing subordinate networks and device-related data, and a protocol processing unit for interface processing with other systems and networks ( 5) and a network management unit 6 which handles subordinate network management.

2 is a schematic operation flowchart of the network management unit to which the present invention is applied.

After initializing the data, the network manager 6 waits for the data to be received (10). When data is received from the transmission devices in the subnetwork or from the user interface (11), the received data is analyzed and the corresponding processing is performed (12). At this time, the data to be managed by itself is stored in a file or memory, and if the data is to be stored in a database (13), a message is generated in the form of a message that interfaces to the database block (14). In the processor-to-processor communication method, a message queue is transmitted to a database block (15).

If the data is not stored in the database, the received message is processed and then the message is generated in the form of a predetermined interface in order to deliver the result to the user interface or the device in the slave network (16), and the message is transmitted to the corresponding block (17). ). After processing all the received data, it waits for data to be received again (18).

3 (a) to 3 (c) are flowcharts illustrating an embodiment of a method for optimizing management of MIT information for each transmission device in a slave network according to the present invention.

First, data and information initialization is performed for each of the 2.5 Gbps group, the 622 Mbps group, and the 155 Mbps group that can be connected to the slave network (21). When the initialization operation is completed, it waits for data to be received (22). When data is received (23), it is checked whether data related to object creation or object deletion, which is data related to the present invention (24).

If the object-related creation / deletion data is not performed (25), the process returns to the process of receiving data (22), and if the object-related creation / deletion data, it is checked from where (26).

If the result of the check is received from the user interface and the creation-related data (27), the creation temporary queue that stores and manages the creation-related data is searched (28) to check whether the corresponding object already exists (29).

If the object already exists, the operation error is transmitted to the user interface (30), and then the process returns to the process (22) of waiting for new data to be received.

If the object does not exist in the queue, store it in a temporary queue (31), create a message for the corresponding transmission device (32), send it to the corresponding transmission device in the slave network (33), and wait for new data to be received. Return to step 22 of the process.

If the received data is received from the user interface and the received data is delete related data (27), the delete temporary queue that stores and manages the delete related data is searched (34) to check whether the object already exists (35).

As a result of the check, if the object already exists, the operation error is transmitted to the user interface unit (36), and then the process returns to the process (22) of waiting for new data to be received.

If the object does not exist in the queue (37), after storing it in the temporary queue (37), generating a message for the corresponding transmission device (38), transmitting it to the corresponding transmission device in the slave network (39), and waiting for new data to be received. .

If the received data is data received from a transmission device in a subordinate network, which is a managed object, and generated data (40), a temporary queue related to creation is searched (41) to check whether the corresponding object exists (42).

If the result of the check does not exist, a message indicating a misoperation is sent to the user interface with a reason for inconsistency with the transmission device in the slave network (43). Otherwise, if the object exists, the creation process result Check (44).

If the generation process is unsuccessful, data is transmitted to the user interface to inform the operator that the generation process has failed (45). If the generation process success is successful, the data is stored in the MIT information management queue operated for each transmission device (46). ). In this case, it also checks whether the object exists in the queue, and if it exists, informs the operator that it is an operation error and stores it.

In order to notify the operator of the storage result, the corresponding data is generated and transmitted (47). After all this processing, the corresponding information in the temporary queue for creation management is deleted (48).

If the data is received from the transmission device in the slave network and the data related to deletion (40), the temporary queue for deletion is searched (49) to check whether the corresponding object exists (50).

If the result of the check does not exist, the operation error is transmitted to the user interface (51). If the corresponding object exists, the data is analyzed and the result is checked (52).

If the delete processing result is unsuccessful, it is transmitted to the user interface that the delete processing has failed (53). Otherwise, if the delete processing result is successful, it is deleted from the MIT information management queue of the corresponding transmitting device (54), and the result is sent to the operator. Notify (55).

After all the processing is completed, the object is deleted from the delete related temporary queue (56), and the process returns to the process (22) of waiting for new data to be received.

The present invention is equally applicable to any transmission device in a synchronous transmission network, and the method is made possible by adding a new transmission device group to the above algorithm.

In the present invention operating as described above, the common objects for the MIT information to be managed for each transmission device are commonly managed with the data that has been initialized, and the device-specific management queue is operated only for objects having different contents for each transmission device. By using this method, the amount of MIT information to be managed can be optimized.

The present invention described above is capable of various substitutions, modifications, and changes within the scope without departing from the technical spirit of the present invention for those skilled in the art to which the present invention pertains, and thus is limited to the above-described embodiments and drawings. It is not.

Claims (7)

A method for optimizing management information management (MIT) information for each transmission device in a slave network management applied to a broadband circuit distribution system, the method comprising performing initialization of data and information for each transmission device group connected to the slave network and receiving the received information. If the data is object-related creation or deletion data, the first step (21 to 26) to check where the received data is entered: from the user interface in the first step (21 to 26), if the creation-related data is generated A second step of searching for a created temporary queue for storing and managing related data and storing the data in the temporary queue if the object does not exist in the queue, then generating a message for the corresponding transmission device and transmitting the message to the corresponding transmission device in the subordinate network (27). 33): Data received from the user interface in the first step 21 to 26, and the received data is deleted related data. In this case, if the deleted temporary queue that stores and manages data related to deletion is searched and the object does not exist in the queue, the object is stored in the temporary queue, and then a message suitable for the corresponding transmission device is generated and transmitted to the corresponding transmission device in the subnetwork. Step 3 (27, 34 to 39): In the first step (21 to 26) is the data received from the transmission device in the slave network, if the generated data, if the creation-related temporary queue is retrieved, the object exists, the generation process If the result is successful, the fourth step (40 to 48) of storing the information in the MIT information management queue operated for each transmission device, notifying the operator of the storage result, and deleting the corresponding information in the temporary queue for generation management, and If the data is received from the intra-subordinate transmission apparatus in the first step (21 to 26), and the deletion-related data, the search for the temporary queue for deletion, the object exists, if the deletion processing result is successful And a fifth step (40, 49 to 56) of deleting from the MIT information management queue of the corresponding transmission device, informing the operator of the deletion result, and deleting the corresponding object from the deletion related temporary queue. Optimization Method of MIT Information Management by Transmission Device in Subordinate Network Management of Distributed System. The method of claim 1, wherein the first steps 21 to 26 perform data and information initialization after 2.5 Gbps, 622 Mbps, and 155 Mbps groups that can be connected to the slave network. A sixth step (21 to 24) of checking whether or not the data related to object creation or object deletion is received when waiting data is received; and performing the function processing if the object related creation / deletion data is not the sixth step (21 to 24). After that, the process returns to the process of waiting for data reception, and if the object-related creation / deletion data, includes a seventh step (25, 26) of checking where the received data is received from. Optimization Method of MIT Information Management by Transmission Device in Dependent Network Management The method of claim 1, wherein the second steps 27 to 33 are received from the user interface and, if the creation-related data, the sixth step of searching for a creation temporary queue storing and managing generation-related data to determine whether the object already exists. Steps 27 to 29: And if the object already exists in the sixth step (27 to 29), after transmitting the operation error to the user interface unit, the process returns to the process of waiting for new data again, the object If does not exist in the queue, store the message in a temporary queue, generate a message suitable for the corresponding transmission device, transmit the message to the corresponding transmission device in the slave network, and then return to the process of waiting for new data to be received (30). 33). A method for optimizing management of MIT information for each transmission device in subordinate network management of a wideband circuit distribution system, comprising: If the received data is received from the user interface and the deletion-related data, a sixth step (27, 34, 35) of searching for a deletion temporary queue storing and managing deletion-related data to determine whether the corresponding object already exists; In step 6 (27, 34, 35), if the object already exists, it transmits an operation error to the user interface and then returns to the process of waiting for new data to be received. If the object does not exist in the queue, it temporarily A seventh step (36 to 39) for generating a message suitable for the corresponding transmission device, storing the message in a queue, transmitting the message to the corresponding transmission device in the slave network, and returning to waiting for new data to be received. Optimization Method of MIT Information Management by Transmission Device in Subordinate Network Management of Broadband Circuit Distribution System. A sixth step (40 to 42) of checking whether a corresponding object exists by searching for a temporary queue related to creation, if the received data is data received from a transmission device in a subordinate network that is a managed object and is generated data; 42), if the object does not exist, transmits a message to the user interface indicating that there is an operation error together with the reason that the correspondence with the transmission device in the subordinate network is not correct; otherwise, if the object exists, the result of the creation process is returned. Seventh step (43, 44) to confirm: and if the generation process result in the seventh step (43, 44) fails, the data is sent to the user interface to inform the operator that the generation process has failed, and the generation process result If is successful, the data is stored in the MIT information management queue operated by each transmission device, and the data is generated to notify the operator of the result of the storage. After the transmission, and the processing according to the generation process result is completed, the eighth step (45 to 48) of deleting the corresponding information in the temporary queue for generation management, characterized in that the transmission in the subordinate network management of the broadband circuit distribution system How to optimize device-specific MIT information management. 6. The method of claim 5, wherein the storing of the MIT information management queue in the eighth step 45 to 48 is an operation error if the object exists in the MIT information management queue. And a method of optimizing management of MIT information for each transmission device in the subordinate network management of the wideband circuit distribution system, characterized in that the information is stored. The method of claim 1, wherein the fifth step (40, 49 to 56) is the data received from the transmission device in the slave network, if the deletion-related data sixth step (40) to check whether the object exists in the temporary queue for deletion (49, 50): If the object does not exist in the sixth step (40, 49, 50), the operation error is transmitted to the user interface, and if the object exists, the seventh to analyze the data and confirm the result Steps 51 and 52: If the deletion processing result is failed in the seventh step 51 and 52, the deletion processing is transmitted to the user interface; otherwise, if the deletion processing result is successful, the MIT information of the corresponding transmission device is transmitted. And an eighth step (53 to 56) for deleting the object from the management queue after deleting the management queue, informing the operator of the result, and all processing according to the deletion processing result.Optimization of the band-line distribution subnetwork MIT device information managed by the management of the system.