KR20010038103A - Management data transmit method for transmission apparatus - Google Patents

Abstract

PURPOSE: A method for transmitting the management data of a transmission equipment is provided to transmit data for the management of a transmission equipment according to a simple algorithm, without providing unnecessary link status information. CONSTITUTION: If downstream data are provided(400), a GNE(Gateway Network Entity) or a managed open system confirms the destination of the downstream data and checks whether the downstream data were transmitted to the GNE or the managed open system itself. If the downstream data were transmitted for the GNE or the managed open system itself, the GNE or the managed open system processes the received downstream data(406). However, in case that the downstream data were not transmitted to the GNE or the managed open system itself, the GNE or the managed open system checks whether there is a slave(408). If there is a slave, the GNE or the managed open system executes broadcasting transmission for the downstream data to the slave(410). In case that there is no slave, the GNE or the managed open system removes the downstream data(412).

Description

MANAGEMENT DATA TRANSMIT METHOD FOR TRANSMISSION APPARATUS}

The present invention relates to transmission equipment, and more particularly, to a method for transmitting and receiving data for management in a transmission network consisting of a plurality of transmission equipment.

The SONET Interoperability Forum recommended that SONET-based devices and SDH devices be managed through a network using the OSI protocol stack on the network of Data Communication Channel (DCC) and Local Communication Network (LCN). This makes it easy to manage each device through routing even if multiple devices are connected in one network.

The Managed Open System was able to deliver data to the Managing Open System through the DCC in the routing node, which is a number of Intermediate Systems. Therefore, one SDH device or SONET device had a duty to deliver not only its own data but also the data of other devices to the managing open system. To this end, each transmission device used the OSI protocol ISIS (Intermediate System Intermedium System) routing protocol to play a role of a router having a variety of topologies.

1 illustrates a managed open system 100 and a managed open system 102 communicating over an OSI protocol stack network. The managed open system 100 provides managed data for a management operation to the managed open system 102 through the protocol stack network, and the managed open system 102 is a response to data for the management operation. Notification data is provided to the managing open system 100 via the protocol stack network.

FIG. 2 illustrates that the managed open system 200 is connected to the plurality of managed open systems 204 to 212 via a gateway network entity (GNE) 202. The plurality of managed open systems 204 to 212 have a function of transferring data provided by the managed open system 200 to other managed open systems as transmission equipment. The protocol used at this time is the ISIS (ISO10589) protocol.

The ISIS (ISO10589) protocol recognizes a sub-network as a point-to-point network through a DCC, and is connected to a neighbor node through transmission of IIH (ISIS hello) and ISH (IS hello) packets. After confirming that the link state information is transmitted to all nodes, link state PDU (LSP) data is transmitted to all nodes so that all managed open systems can know the network connection status of all managed open systems. (Short Pass First Algorithm). The LSP data is updated at regular intervals. In order to confirm whether the LSP data is properly maintained, data of a partial service PDU (PSNP) and a complete service PDU (CSNP) has been conventionally used.

The ISIS protocol provides level 2 routing and interdomain routing to operate as an open system worldwide, and requests routing functions from an intermediate system without performing routing to access the entire network. Provides an end system that can be done. In this case, ESIS (End-System Intermedium System) (ISO9542) is used.

The method of performing management using the ISIS protocol has a problem of consuming a lot of bandwidth of the service line as link state information is frequently broadcasted to all transmission equipment. The OSI ISIS protocol is operated as a stable system through complex and various algorithms to remedy these shortcomings. However, these complex and diverse algorithms impose many constraints on the configuration and operation of the OSI network, resulting in very high cost. It was.

Moreover, there is a problem that the various and extensive functions of the ISIS protocol are practically not used for managing the transmission equipment. In other words, most transmission equipments need only a path between a managed open system and a managed open system, and each transmission device requires only link state information of the shortest path when transmitting data for management to another transmission device. Do not use link status information for paths.

As described above, there is a conventional difficulty in using complicated and various algorithms as well as unnecessary link state information for managing transmission equipment.

Accordingly, an object of the present invention is to provide a management data transmission method of a transmission device that can transmit data for management of the transmission device according to a simple algorithm and does not have unnecessary link state information.

1 is a diagram illustrating that a managed open system and a managed open system are connected;

2 is a diagram illustrating that a managed open system and a plurality of managed open systems are connected;

3 and 4 are diagrams schematically illustrating a process of transmitting management data of a transmission device according to an embodiment of the present invention;

5 and 6 are flowcharts of a method for transmitting management data of a transmission device according to a preferred embodiment of the present invention.

According to the present invention for achieving the above object, if the managed open system receives downstream data, which is management data transmitted from the managed open system to the managed open system side, the managed open system determines whether the downstream data is transmitted to itself. Searching for; processing the downstream data if the downstream data is transmitted to it; searching for a slave if the downstream data is not sent to itself; Broadcasting the downstream data to the slave; and if the managed open system receives upstream data, which is management data transmitted from the managed open system to the managed open system side, the managed open system is updated. And transmitting the rim data to the master.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. While many specific details are set forth in the following description and in the accompanying drawings, to provide a more general understanding of the invention, these specific details are illustrated for the purpose of illustrating the invention and are not meant to limit the invention thereto. And a detailed description of known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

In general, management data (hereinafter referred to as downstream data) sent from a managed open system to a managed open system has the following characteristics. The downstream data is not a large amount of data with a command and is not generated periodically, and is not transmitted to several nodes at the same time.

Referring to Table 1, which shows the state of downstream data transmission in the GNE, the downstream data is not transmitted in multiple destinations in the same timeslot. Accordingly, even if the broadcast data is broadcast downstream, the congestion does not occur.

First destination Second destination Third Destination 4th destination 5th destination First timeslot send children children children children Second time slot children send children children children 3rd time slot children children children send children 4th time slot children children send children children 5th timeslot children children children children send

The characteristics of the management data (hereinafter referred to as upstream data) sent from the managed open system to the managed open system are as follows. The upstream data may include alarm reporting, PM data, internal database values, and the like. The upstream data may be periodically generated, transmitted in the GNE direction, and the amount of data may vary.

As such, downstream data may be broadcasted. Upstream data may be transmitted to the GNE. Therefore, only downstream data may be transmitted to the master.

A method of transmitting the downstream data and the upstream data using the characteristics of the downstream data and the upstream data will be schematically described with reference to FIGS. 3 and 4.

When the managing open system 300 provides the downstream data to the GNE 302 to be provided to the first managed open system 304, the GNE 302 broadcasts the downstream data to the slave. That is, the downstream data is transmitted to the first managed open system 304 and the third managed open system 308 which are slaves of the GNE 302. Since the downstream data is transmitted to the first managed open system 304, the first managed open system 304 does not transmit it to the second managed open system 206 which is its slave after processing. The third managed open system 308 broadcasts the downstream data provided by the master GNE 302 to the slave because it is not transmitted to the master. Accordingly, the downstream data is provided to the fourth managed open system 310 and the fifth managed open system 312. The fourth managed open system 310 and the fifth managed open system 312 remove the provided downstream data because the provided downstream data is not transmitted to the self and has no slave.

When the upstream data to be provided to the managing open system 300 is generated by the second managed open system 306, the upstream data is provided to the first managed open system 304 that is the master. When the upstream data is provided, the first managed open system 304 provides the data to its master, GNE 302. The upstream data provided by the GNE 302 is provided to the managing open system 300 that is the master.

As described above, a process of processing downstream data in the GNE 302 or the first to fifth managed open systems 302 to 312 will be described with reference to the flowchart of FIG. 5. In step 400, the GNE or the managed open system checks the destination of the downstream data when the downstream data is provided, and checks whether the downstream data has been transmitted to itself. At this time, if the downstream data is transmitted to the GNE or the managed open system, the process proceeds to step 406 to process the received downstream data. If it is not transmitted to itself in step 404, the GNE or managed open system proceeds to step 408 to search for the presence of a slave. If there is a slave, the GNE or the managed open system proceeds to step 410 and broadcasts the downstream data to the slave. If there is no slave in step 408, the GNE or managed open system proceeds to step 412 to remove the downstream data.

A process of processing upstream data in the GNE 302 or the first to fifth managed open systems 302 to 312 will be described with reference to the flowchart of FIG. 6. In step 500, the GNE or the managed open system proceeds to step 504 if upstream data is provided, otherwise proceeds to step 502 to detect whether the upstream data is generated by itself. If the upstream data is generated by itself in step 502 or upstream data is provided from the slave, the GNE or the managed open system proceeds to step 504 to transmit the upstream data to the master.

As described above, the present invention can perform the transmission of data for managing the entire network with a very simple algorithm.

As described above, the present invention has an advantage in that data for management of a transmission device can be transmitted by a simple algorithm.

Claims (2)

In the managed open system and a plurality of managed open system, the plurality of managed open system is a management data transmission method of a transmission device in a transmission system consisting of a slave and a master, When the managed open system receives the downstream data, which is management data transmitted from the managed open system to the managed open system, the managed open system searches for whether the downstream data is transmitted to the managed open system; Processing the downstream data if the downstream data has been transmitted to it; Searching if there is a slave if the downstream data is not sent to it; Broadcasting downstream data to the slave, if any; If the managed open system receives the upstream data, which is management data transmitted from the managed open system to the managed open system, the managed open system transmits the upstream data to the master. Data transfer method. The method of claim 1, wherein if the downstream data is not transmitted to the slave and there is no slave, the data is removed.