KR100776869B1 - EMS of ATM switching system having an INBAND IPC function and controlling method therefore - Google Patents

Abstract

According to the present invention, an ATM cell having a specific VPI and VCI value is separated from an ATM cell signal inputted through an Inband IPC leased line of a subscriber board to which one of data link lines is connected to another ATM switch. Then, the port controller converts the separated ATM cell into AAL5 format IPC data using the SAR function and performs the reverse process, and the IPC pass line of the AAL5 format IPC data output through the port controller. It is composed of a main processor for receiving and processing through the input and then the result back to the port controller having a dedicated line for the Inband IPC, and a memory unit for embedding routing information for IPC transmission and reception according to the function control signal of the main processor The present invention provides a network management system of an ATM switch having an in-band IP function and a control method thereof.

As described above, the present invention connects the EMS only to the ATM switch which is a host, and assigns one of the link lines for data transmission of the ATM switch of the host and other ATM switches for INBAND IPC and then connects each other to the memory of each main processor. By loading the stored IPC route information during setup and executing IPC transmission and reception, it is not necessary to connect EMS and multiple ATM exchangers through a complex IP network, thus significantly reducing the maintenance and management costs of ATM exchanges using EMS. have.

Description

EMS management system having an INBAND IPC function and controlling method

1 is an explanatory diagram illustrating an EMS and an ATM switch using an IP network.

2 is an explanatory diagram illustrating a network management system of the present invention.

3 is an explanatory diagram illustrating a port controller of the present invention system.

4 is an explanatory diagram for explaining routing information for IPC transmission and reception applied to the present invention system.

5 is an explanatory diagram illustrating a function of an ATM switch of the present invention.

6 is a flowchart of the present invention.

<Detailed Description of Codes>

1: Data Link Line 2A-N: ATM Switch

3: leased line for Inband IPC 4A-N: subscriber card

5A-N: Port Controller 6: IPC Pass Line

7: main processor 8: memory

9: Utopia Master Block 10: CPU

11: EMS 12A-N: Processor                 

13: cable 14: main processor

The present invention relates to a network management system and a control method of an ATM switch equipped with an in-band IP function, and in particular, connects an EMS to a host ATM switch and transfers data between the ATM switch of the host and other ATM switches. Assign one of the link lines for INBAND IPC and connect them to each other, and then load the IPC route information stored in the memory of each main processor during setup to perform IPC transmission and reception. It relates to a system and a control method thereof.

In general, as the information society develops, as the role of communication network plays an increasing role in society as a whole, the centralization and automation of communication network operation management has emerged as an essential component of communication network. Therefore, in consideration of the importance of network operation management, ITU-T also sets the management system element as an automation / centralization concept for the communication network, for example, the network management system as an essential component of the communication network.

The element management system (EMS) as described above typically includes various types of communication networks, for example, a client (CLIENT), an SDH optical transmission device, an ATM switch, or a plurality of ATM devices and a data communication network connected to the ATM switch. It collects and accumulates various kinds of information from and basically processes and processes various communication network management information from these information. Accordingly, the EMS typically performs a function of storing, for example, event information and the like, output from a plurality of devices such as an ATM exchanger transmitted from an online communication module, in a table of a database by executing an appropriate process.

Then, referring to Figure 1 of the network management apparatus of the conventional ATM system as described above, a plurality of ATM exchangers (70A-N) for transmitting and processing the ATM signals input from the subscriber unit of the lower hierarchy, and the plurality of ATM exchangers ( 70A-N) and an element management system (EMS) 71 for processing signals for maintenance using a simple network management protocol (SNMP) through the IP network.

Here, the ATM switch 70A-N includes a main processor 72A-N to control the overall ATM cell transmission and reception function.

In addition, the IP network 73 is a communication network for transmitting data using a plurality of transmission equipment or other equipment, using SNMP as a protocol, and each ATM switch 70A-N and EMS 71 are connected one-to-one. do. At this time, the IP network of the EMS 71 is connected to the main processor 72A-N of each ATM switcher 70A-N so that the EMS 71 can be controlled remotely.

In addition, each ATM switch 70A-N is not connected to the IP network 73 using the SNMP, but a data link line 74 is connected to each other for data communication.

On the other hand, looking at the operation of the network management apparatus of the conventional ATM system as described above, when the operator sets the maintenance information of the specific ATM switch (70A), for example, whether a specific sub-board failure signal through the EMS (71) The EMS 71 converts the command signal of the operator into a data format that can be transmitted by SNMP, and then transmits the command signal to the main processor 72A of the corresponding ATM switch 70A through the IP network 73 using the SNMP protocol. At this time, the IP network 73 connects only the EMS 71 and the main processor 72A of the corresponding ATM exchanger 70A with the SNMP protocol. When IP data is required between the ATM exchangers 70A, this IP network 73 is used. Transmit using data link line 74 without using network 73.

Then, the main processor 72A processes the command requested by the EMS 71 and transmits it to the EMS 71 via the IP network 73 to execute normal network management.

  However, in the network management apparatus of the conventional ATM system as described above, each ATM exchanger must be always connected through the EMS and the IP management network, so in case of failure of the IP network, the EMS can access the ATM exchanger for maintenance. In addition, since the IP network uses the SNMP protocol, the communication speed is slow and it is very difficult to synchronize the signal transmission and reception, thereby significantly increasing the maintenance and management costs of the ATM switch using EMS. there was.

In addition, the network management apparatus of the conventional ATM system as described above has a problem that it is very difficult to construct a hierarchically connected structure of a small exchange under the control of a large-capacity ATM switch because communication cannot be performed with each other during the ATM exchange period. there was.

Accordingly, the present invention has been invented to solve the above-mentioned problems, and it is not necessary to connect the EMS and a plurality of ATM exchangers through a complex IP network, thereby significantly reducing the maintenance and management costs of ATM exchangers using EMS. It is an object of the present invention to provide a network management system and control method of the ATM switch with an in-band IP Fish function that can be.

 In addition, another object of the present invention is to transmit and receive IPC data to AAL5 packet data of SAR function through INBAND of ATM switching period without using complicated SNMP for signal transmission and reception. The present invention provides a network management system and a control method of an ATM switch having an enhanced in-band IPF function.

 The present invention for achieving the above object is a subscriber board for allocating one of the data link line to the dedicated line for Inband IPC connected to the other ATM switch and transmitting and receiving ATM cell data transmitted and received during the ATM exchange, and the subscriber ATM cell with specific VPI and VCI value is separated from ATM cell signal inputted through Inband IPC dedicated line of the board, and then the separated ATM cell is converted into AAL5 format IPC data using SAR function and vice versa. A port controller that performs the process of A, and receives the AAL5 format IPC data output through the port controller through an IPC pass line, and processes the result, and then transfers the result back to the port controller having the dedicated line for the Inband IPC. Comprising a processor and a memory unit for embedding routing information for transmitting and receiving IPC according to the function control signal of the main processor It provides a network management system of ATM switch equipped with in-band IP.

Another aspect of the present invention is the routing information loading step for loading the corresponding routing information for the IPC transmission and reception stored in each ATM switch after the configuration of the Inband IPC network between the ATM exchanger is set up, and the routing information If the inband signal is transmitted / received from the ATM switch configured as the host controlled by the EMS after the loading step to the corresponding ATM switch, the ATM switch refers to the routing information and transmits the signal currently transmitted / received through the inband transmission line according to the transmission direction. IPC data conversion transmission step of converting the IPC data to the corresponding transmission path, and the main processor of the ATM switch receiving IPC data after the IPC data conversion transmission step processes the set function through the subsystem and then inbands again. IPC retransmits to ATM switch used as host through leased line An in-band IP function consisting of an EMS transmission step of transmitting a response IPC data from an ATM switch that is set as a host by the EMS after the IPC data response transmission step, and sending the response IPC data to the EMS after the IPC data response transmission step. It provides a control method of the network management system of the ATM switch.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The apparatus of the present invention allocates one of the data link lines 1 to the dedicated line 3 for the Inband IPC connected with the other ATM switches 2A-N, as shown in FIG. 2, and between the ATM switches 2A-N. A subscriber card (4) for transmitting / receiving and transmitting and receiving ATM cell data, and an ATM cell having a specific VPI and VCI value among ATM cell signals inputted through the inband IPC dedicated line (3) of the subscriber card (4). Next, the port controller converts the separated ATM cells into IPC data in AAL5 format using the segment and reassembly (SAR) function, or vice versa, and muxes or demuxes a plurality of ATM cell signals inputted and outputted. (5A-N) and the IPC data of the AAL5 format type outputted through the port controller (5A-N) are received through the IPC pass line (6), processed, and the result is again used for the Inband IPC dedicated line (3). To the port controller (5A-N) and the function of the ATM switch (2A-N). The main processor of the overall control (7) and, a memory unit 8, which incorporates the routing information for transmitting and receiving in accordance with IPC function control signal from the main processor (7).

The port controllers 5A-N receive ATM cell signals input through the Inband IPC leased line 3 of the subscriber card 4 or transmit them through their reverse processes as shown in FIG. A Utopia master block 9 which muxes or demuxes a plurality of ATM cell signals and ATM cells having a specific VPI and VCI value are separated from ATM cell signals passing through the Utopia master block 9 and then separated. The CPU 10 converts the ATM cell into IPC data in the AAL5 format using the SAR function and outputs it through the IPC passline 6 or vice versa.

Here, the routing information for IPC transmission / reception of the memory unit 8 may include an identification number (system No) of an ATM switch, an identification number of a port controller (Port Controller No), and a subscriber card identification number (as shown in FIG. 4). Subscriber card NO), a link identification number (LINK No), a corresponding VPI value (VPI), and a corresponding VCI value (VCI).

On the other hand, the ATM switch of the present invention first connects one ATM switch 2A to be used as a host to the EMS 11 as shown in FIG. In addition, the ATM switch 2A to be used as the host and the plurality of ATM switches 2B-N already connected by the data link line 1 are dedicated lines 3 for Inband IPC among the data link lines 1 previously connected. By assigning each line to be used as an AT, each ATM switch 2A and a plurality of other ATM switches 2B-N to be used as hosts through the dedicated line 3 for this Inband IPC form an IPC network.

At this time, the ATM exchangers 2A-N configure the network as described above and store routing information for IPC transmission and reception in their memory unit 8 as shown in FIG. 4.

Next, the control method of the present invention as described above will be described.

The present invention proceeds from the initial state (S1) to the routing information loading step (S2) as shown in Figure 6 to configure the Inband IPC network and then created and set up the routing information for transmitting and receiving IPC stored for each ATM exchange Load on the processors.

In this case, the Inband IPC network included in the routing information loading step (S2) includes a host connection step of connecting an ATM switch to be used as a host to an EMS, and an ATM link to be used as a host after the host connection step. A plurality of ATM exchangers, each of which is configured as a dedicated line for Inband IPC, are allocated one from the data link line, which is connected to each other. Inband IPC network configuration steps are included.

On the other hand, after the routing information loading step (S2) proceeds to the in-band signal transmission and reception determination step (S3) to determine whether the inband signal has been transmitted and received from the ATM switch set as the host under the control of the EMS to the ATM switch.

At this time, when the in-band signal transmission / reception determination step (S3) determines that the in-band signal is not transmitted or received from the ATM switch set as the host under EMS control to the corresponding ATM switch, the process proceeds to the general function processing step (S4). Performs the normal ATM cell signal transmission processing set in the ATM switch. However, when the inband signal is transmitted / received from the ATM switch set as the host under EMS control to the corresponding ATM switch as a result of the determination during the inband signal transmission / reception determination step S3, the process proceeds to the IPC data conversion transmission step S5. The exchange converts the signal currently transmitted / received through the inband transmission line into the inband IPC data according to the transmission direction and transmits it to the corresponding transmission path by referring to the routing information.

Here, when the ATM cell signal is input through the inband transmission line during the IPC data conversion transmission step (S5), the ATM cell having a specific VPI and VCI value is separated from the ATM cell signal, and then the separated ATM cell is SAR function. Converting the data into AAL5 format IPC data using the IPC path and transmitting the corresponding path through the IPC path or vice versa.

In addition, after the IPC data conversion transmission step (S5), the process proceeds to the IPC data response transmission step (S6), the main processor of the corresponding ATM exchange receiving the IPC data processes the set function through the subsystem, and then again uses the inband dedicated line. Retransmit to an ATM exchange used as a host. After the IPC data response transmission step (S6), the process proceeds to the EMS transmission step (S7) and the ATM switch set as the host collects the response IPC data from the ATM switch that the EMS requests.

In other words, first, the ATM 11 connects one ATM switch 2A-N to be used as a host. In addition, the ATM switch 2A to be used as the host and the plurality of ATM switches 2B-N already connected by the data link line 1 are dedicated lines 3 for Inband IPC among the data link lines 1 previously connected. In this case, the ATM switch 2A and the other ATM switches 2B-N to be used as hosts through the dedicated line 3 for this Inband IPC configure IPC networks.

Then, the IPC network is configured as described above, and the routing information for transmitting and receiving the configured IPC is stored in the memory unit 8 of each ATM switch 2A-N.

Here, when the main processor 7 of each ATM switch 2A-N is set up, as shown in FIG. 5, the routing information for transmitting / receiving IPC stored in the memory unit 8 is stored in respective subsystems, for example. Then, the information is loaded by the CPU 10 of the lower processor 12A-N or the port controller 5A-N.

At this time, when the EMS 11 wants to view the fault information from the processor 12A of the specific ATM switch 2A-N, for example, the main processor of the ATM switch 2A registered as a host through the cable 13 ( 14) transmits the command signal. Then, the main processor 14 of the ATM switch 2A registered as the host refers to the routing information for IPC transmission and reception, which is already loaded, through the inband dedicated line 3 connected to the corresponding ATM switch 2B. The command signal of (11) is transmitted.

Then, the ATM switch 2B receives the command signal of the EMS 11 to the utopia master block 9 of the port controller 5A via the subscriber card 4A via the inband dedicated line 3. In this case, the CPU 10 of the port controller 5A separates an ATM cell having a specific VPI and VCI value from ATM cell signals passing through the utopia master block 9 and then uses the SAR function to separate the ATM cells. IPC data in AAL5 format is converted and output to the main processor 7 through the IPC pass line 6.

Then, the main processor 7 outputs the command signal of the EMS 11 input through the IPC pass line 6 to the corresponding processor 12A. Then, the processor 12A outputs a command signal of the EMS 11, for example, a response request signal indicating whether the processor has failed or not, to the main processor 7.

Accordingly, the main processor 7 transmits a response signal to the command of the EMS 11 input from the corresponding processor 12A to the port controller 5A having the inband dedicated line 3 through the IPC pass line 6. The response signal is transmitted to the CPU 10, in which the response signal is transmitted as IPC data in AAL5 format. Then, the CPU 10 of the port controller 5A converts the ATM cell signal of the AAL5 format type input IPC data again through the SAR function, and sets the ATM switch 2A as the host through the reverse path of the reception process. To send).

Therefore, the ATM switch 2A set as the host transmits the processing data for the command of the EMS 11 received from the ATM switch 2B to the EMS 11 via the cable 13.

Therefore, according to the present invention as described above, it is not necessary to configure a complex IP network between the EMS and a plurality of ATM switches.

As described in the above description, the present invention connects the EMS only to the ATM switch which is a host, and assigns one of the link lines for data transmission of the ATM switch of the host and other ATM switches for INBAND IPC, and then connects each main processor. Since IPC transmission and reception is performed by setting up IPC route information stored in the memory at the time of setup, it is not necessary to connect EMS and multiple ATM exchangers through a complex IP network, thus significantly reducing the maintenance and management costs of ATM exchangers using EMS. It has the advantage of being reduced.

In addition, according to the present invention, since IPC data is converted into AAL5 packet data of SAR function through INBAND during ATM switching period without using complicated SNMP for signal transmission and reception, the transmission processing speed of IPC communication is significantly improved accordingly. There is also an effect.

Claims (6)

A subscriber board that allocates one of the data link lines to an inband IPC dedicated line connected to another ATM switch and transmits and receives ATM cell data transmitted and received during the ATM exchange period, and an ATM input through the inband IPC dedicated line of the subscriber board. A port controller for separating an ATM cell having a specific VPI and VCI value from the cell signal, and then converting the separated ATM cell into IPC data in AAL5 format using the SAR function and vice versa; The main processor that receives and processes the AAL5 format IPC data output through the controller through the IPC pass line, and transmits the result back to the port controller having the dedicated line for the Inband IPC, and the function control signal of the main processor. According to the in-band IP Fish function, characterized in that consisting of a memory unit containing the routing information for transmitting and receiving IPC Network Management System TM bidoen this exchange. 2. The apparatus of claim 1, wherein the port controller includes a utopia master block receiving an ATM cell signal input through an inband IPC dedicated line of a subscriber board or transmitting through an inverse process thereof, and an ATM cell signal passing through the utopia master block. It includes a CPU that separates ATM cells with specific VPI and VCI values, and then converts the separated ATM cells into AAL5 format IPC data using SAR function to output them through the IPC pass line or vice versa. Network management system of the ATM switch with an in-band IPF, characterized in that the. According to claim 1, wherein the routing information for IPC transmission and reception of the memory unit is the identification number (system No) of the ATM switch, the port controller identification number (Port Controller No), subscriber card identification number (subscriber card NO), link identification A network management system of an ATM switch having an in-band IP function, characterized by consisting of items such as a number (LINK No), a corresponding VPI value (VPI), and a corresponding VCI value (VCI). After configuring the inband IPC network between the ATM exchangers, the routing information loading step of loading routing information for IPC transmission and reception stored in each ATM exchanger to the corresponding processors during setup, and controlling the EMS after the routing information loading step When Inband signal is transmitted / received from ATM switch configured as host to ATM switch, ATM switch converts the signal transmitted / received through Inband transmission line into Inband IPC data according to transmission direction by referring to routing information. The IPC data conversion transmission step of transmitting the transmission path and the main processor of the ATM switch receiving the IPC data after the IPC data conversion transmission step process the set function through the subsystem and then back to the host through the dedicated line for inband. IPC data response transmission step to retransmit to the used ATM exchange, After the IPC data response transmission step, the ATM switch configured as a host comprises an EMS transmission step of collecting response IPC data from the ATM switch that the EMS requests and sending the response to the EMS. Control method of network management system of TEM exchanger. 5. The method of claim 4, wherein the inband IPC network included in the routing information loading step includes a host connection step of connecting an ATM switch to be used as a host to an EMS, and an already existing data link with an ATM switch to be used as a host after the host connection step. The ATM link used to host as a dedicated line for Inband IPC is allocated from the data link line to which the ATM switch configured by the line is connected. A method of controlling a network management system of an ATM switch having an in-band IPF, characterized in that it comprises an inband IPC network configuration step. The method according to claim 4, wherein during the IPC data conversion transmission step, when an ATM cell signal is input through an inband transmission line, an ATM cell having a specific VPI and VCI value is separated from the ATM cell signal, and then the separated ATM cell is SAR. AMT with in-band IP function further comprising the step of converting the IPC data in the AAL5 format using the function and transmitting the corresponding path through the IPC path or vice versa. Control method of network management system of exchange.

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