KR20000033756A - Optical transmission apparatus operation management system and method thereof - Google Patents

Abstract

PURPOSE: An optical transmission apparatus operation management system and the method thereof are provided to reduce the number of unnecessary operation management means by using multi port and LAN(Local Area Network), and to increase the speed of communication by allocating a port per a system. CONSTITUTION: Status check and operation command for each associated optical transmission apparatus connected to each port are transmitted to an operation port concentration processing means through LAN(301-304). The status of the associated optical transmission apparatus connected to each port are transmitted to the operation management means and the concentrative operation management means, according to the status check and the operation command(305-309). In the operation management means and the concentrative operation management means, the response results of the associated optical transmission apparatus are informed to a user(308-317).

Description

Optical transmission device operation management system and method

The present invention relates to an operation management system and a method for intensively monitoring and remotely operating an optical transmission device. In particular, the present invention relates to a multi-port and a local area network (LAN) using RS-422 (Recommended Standard-422) multiport. An operation management system for intensively monitoring and remotely operating a 155Mbps synchronous optical transmission device (SMOT-1) and a method thereof, and a computer-readable recording medium having recorded thereon a program for realizing the same. will be.

Conventionally, as the number of 155 Mbps optical transmitters (SMOT-1) operating in one telephone station increases, the number of operating terminals for operation management increases, occupying the space of the transmission room, and the installation cost of the operating terminal was not easy. . In addition, the conventional 155Mbps optical transmission device (SMOT-1) provides a single operation port as an interface to the outside, so when the operation terminal occupies it, it is impossible to connect and remotely operate in another system such as a centralized operation system. It was.

1 is a configuration diagram of a conventional synchronous optical transmission apparatus (SMOT-1) operation management system, where "11" represents a 155 Mbps optical transmission apparatus (SMOT-1) and "12" represents an operation terminal, respectively.

As shown in FIG. 1, the conventional synchronous optical transmission apparatus (SMOT-1) operation management system includes a 155 Mbps optical transmission apparatus (SMOT-1) 11 and an operation terminal 12 for operation management thereof.

The conventional synchronous optical transmission device (SMOT-1) operation management system is provided with a port for communication with the operation management device in the external operation terminal 12 in the 155 Mbps optical transmission device (SMOT-1) 11, SMOT- One operation terminal 12 is installed in eight SMOT-1 units for operation management of 1 (11). That is, the operation terminal 12 operates the SMOT-1 11 by accessing the eight SMOT-1s 11 through a standard standard (RS-422) port of one balanced series interface.

However, in the conventional synchronous optical transmission device (SMOT-1) operation management system, when the operation terminal 12 connects eight SMOT-1 (11) to one port, each of the SMOT-1 (11) in sequence Since the status is inquired and the response delay of the SMOT-1 11 is considered, its operation speed is lowered.

In the conventional synchronous optical transmission device (SMOT-1) operation management system, if there are 8 or more SMOT-1 (11) systems operating in one telephone station, a plurality of operation terminals 12 may be installed to manage them. It takes up a lot of space, and since there is only one port provided by the SMOT-1 11 itself, when the existing operation terminal 12 occupies the operation port of the SMOT-1 11, the centralized management system There is a problem that the remote operation management and monitoring control is impossible because there is no interface to communicate with the SMOT-1 (11).

In order to solve the above problems, the present invention reduces the number of unnecessary operation management means by using a multi-port and a local area network (LAN), and improves communication speed by allocating one port per system. By connecting the operator interface to a local area network (LAN), it is possible to operate from a remote location.In addition to the operation management means connected to the LAN, the operation of the optical transmission device for the centralized monitoring and remote operation of alarm occurrence is also possible. It is an object of the present invention to provide a computer-readable recording medium recording a system, a method thereof, and a program for realizing the same.

1 is a block diagram of a conventional synchronous optical transmission device (SMOT-1) operation management system.

Figure 2 is a configuration diagram of an embodiment of the optical transmission device operation management system according to the present invention.

3 is a flow chart of an embodiment of an optical transmission apparatus operation management method according to the present invention.

* Explanation of symbols for the main parts of the drawings

21: 155Mbps Synchronous Optical Transmission Device (SMOT-1) 22: RS-422 Multiport

23: operating port concentrator 24: operating terminal

25: centralized operation device 26: local area network (LAN)

In order to achieve the above object, the present invention provides a system for operating and managing a plurality of optical transmission devices for constituting a communication system, comprising a multi-port to allocate one port per corresponding optical transmission device among the plurality of optical transmission devices. Operating port aggregation processing means for transmitting and receiving data through each port; Operation management means for monitoring and remotely operating the plurality of optical transmission devices by accessing the operation port aggregation processing means through a local area network; And a centralized operation management means for centrally monitoring and remotely operating an alarm generated from the plurality of optical transmission devices by accessing the operation port aggregation processing means through the local area network.

In addition, the present invention, in the optical transmission device operation management method applied to the optical transmission device operation management system, in the operation management means and the centralized operation management means to manage the operation of a plurality of optical transmission devices corresponding to one-to-one multi-port, each port A first step of transmitting a status inquiry and an operation command for the corresponding optical transmission device connected to the operation port aggregation processing means through a local area network; A second step of grasping a state of the corresponding optical transmission device connected to each port according to a status inquiry and an operation command by the operation port aggregation processing means and transferring the state to the operation management means and the centralized operation management means; And a third step of informing the operator of the response result of the corresponding optical transmission apparatus in the operation management means and the centralized operation management means.

In addition, the present invention, in the optical transmission device operation management system having a processor, in the operation management means and the centralized operation management means for the operation management of a plurality of optical transmission devices corresponding to one-to-one to the multi-port, the corresponding optical transmission device connected to each port Transmitting status inquiry and operation command for the operation port aggregation processing means through a local area network; A function of grasping a state of the corresponding optical transmission apparatus connected to each port in accordance with a status inquiry and an operation command by the operation port aggregation processing means and transferring the state to the operation management means and the centralized operation management means; And a computer readable recording medium having recorded thereon a program for realizing a function of informing the operator of the response result of the optical transmission apparatus in the operation management means and the centralized operation management means.

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

2 is a configuration diagram of an embodiment of an optical transmission apparatus operation management system according to the present invention.

As shown in FIG. 2, the optical transmission apparatus operation management system according to the present invention includes an RS-422 multiport 22 and a corresponding 155 Mbps optical transmission apparatus (SMOT) among a plurality of 155 Mbps optical transmission apparatuses (SMOT-1) 21. One port per port 21 is allocated to the operation port concentrator 23 for transmitting and receiving data through each port, and to the operation port concentrator 23 through the local area network (LAN) 26. A plurality of operating port concentrators located at a plurality of telephone stations through a management terminal 24 and a local area network (LAN) 26 for monitoring and remotely operating a plurality of 155 Mbps optical transmission devices (SMOT-1) 21. And a centralized operating device 25 for centrally monitoring and remotely operating alarms generated from a plurality of 155 Mbps optical transmission devices (SMOT-1) 21.

The operating port concentrator 23 has an RS-422 multiport 22 for exchanging data with the SMOT-1 21, and is actually connected to the SMOT-1 21 via the RS-422 multiport 22. A communication server is mounted that transmits and receives data and transmits the data to the operation terminal 24 and the centralized operation device 25.

The operation terminal 24 is equipped with an operation management device for monitoring and remotely operating a plurality of SMOT-1 21 by connecting through the operation port concentrator 23 and a local area network (LAN).

The centralized operation device 25 can centrally monitor and remotely operate an alarm generated from the SMOT-1 21 located in a plurality of telephone stations.

As described above, the optical transmission device operation management system according to the present invention uses the RS-422 multiport 22 to impart a function of message communication with a plurality of SMOT-1s 21, thereby unnecessary operation terminal 24. It can reduce the number of ports, improve the communication speed by allocating one port per system, and connect the operator's interface to the LAN to enable remote operation, and other than the operation terminal 24 connected to the LAN. In the centralized operation device 25, the alarm occurrence can be monitored and remotely operated.

3 is a flow chart of an embodiment of the optical transmission apparatus operation management method according to the present invention, showing the centralized monitoring and remote operation procedure of the SMOT-1.

As shown in FIG. 3, in the optical transmission apparatus operation management method for the centralized monitoring and remote operation of the SMOT-1 21 according to the present invention, the operation terminal 24 is automatically operated by the operation port concentrator 23. It connects to the communication server (301) and transmits the status inquiry or operation command of the specific SMOT-1 (21) selected by the operator to the operation port concentrator 23 (302).

For example, the operation terminal 24 automatically connects to the communication server of the operation port concentrator 23 (301). At this time, the operation terminal 24 is connected to the operation port concentrator 23 so that the operator selects a specific SMOT-1 21 using the operation terminal 24 and inputs a status inquiry or operation command of the selected system. In operation 302, a status inquiry or operation command of the SMOT-1 21 connected from the operation terminal 24 is transmitted to the operation port concentrator 23.

On the other hand, the alarm collection and analyzer of the centralized operating device 25 automatically connects with the communication server of the operating port concentrator 23 (303) and selects the specific SMOT-1 21 selected by the operator of the centralized operating device 25. The status inquiry or remote operation command of the transmission to the operation port concentrator 23 (304).

For example, the alarm collection and analyzer of the centralized operation device 25 are also automatically connected to the communication server of the operation port concentrator 23 (303). At this time, when the operator of the centralized operation device 25 drives the operator interface for the centralized operation device and connects to the alarm collection and analyzer, and inputs a status inquiry or a remote operation command for the specific SMOT-1 21, the centralized operation device ( In step 25), the status inquiry or remote operation command of the specific SMOT-1 21 is transmitted to the operation port concentrator 23 (304).

And, apart from the input of the operator, the alarm collection and analyzer of the operating terminal 24 and the centralized operating device 25 periodically inquires the status to monitor the alarm occurrence status of all connected SMOT-1 21. The command is automatically generated and transmitted to the operation port concentrator 23 (304).

Subsequently, when a status inquiry or operation command message is received from the operation terminal 24 and the centralized operation device 25 at the operation port concentrator 23 (305), the operation port concentrator 23 receives the message delimiter and the message. The requestor is stored together (306), the port to which the corresponding SMOT-1 21 is connected, and a status inquiry or operation command message is transmitted (307), and the response from the SMOT-1 21 is waited for (308).

Next, when the response message for the status inquiry or operation command message is received from the SMOT-1 21 at the operation port concentrator 23 (309), the operation port concentrator 23 uses the previously stored information. The operation terminal 24 or the centralized operation device 25 requesting the message is searched (310) to analyze whether the connection with the message requestor is valid (311).

As a result of the analysis, if the connection with the message requestor is valid, the message read from the SMOT-1 21 is transmitted to the operation terminal 24 and the centralized operation device 25 (312).

As a result of the analysis, if the connection with the message requestor is not valid (that is, when the connection with the message requester is released), the message received from the SMOT-1 21 is discarded and the operation terminal 24 and the centralized operation device 25 are discarded. Receive a status query or operation command message from the (305).

Meanwhile, the operation terminal 24 analyzes the message received from the operation port concentrator 23 (313) and displays the alarm occurrence contents, status inquiry contents, and remote control results on the screen (314).

In addition, the alarm collection and analyzer of the centralized operating device 25 analyzes the message received from the operation port concentrator 23 (315) and connects a plurality of operator interfaces connected to alarm occurrence contents, status inquiry contents and remote control results. (316). At this time, each operator interface displays the information received from the alarm collection and analyzer on the operation screen (317).

The present invention as described above, by using the RS-422 multi-port 22 to give a function to communicate with a number of SMOT-1 (21) and near the operation terminal 24 and the centralized operation device 25 By connecting to a communication network (LAN) 26, it is possible to remotely operate multiple SMOT-1 21 at one operating terminal 24, improve communication speed, and even multiple SMOT-1 21 at remote locations. Operation is possible. In addition, according to the present invention, the centralized operation device 25 other than the operation terminal 24 connected to the LAN 26 can centrally monitor the alarm occurrence of the SMOT-1 21 and perform remote operation.

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

As described above, the present invention provides a function of message communication with a plurality of 155Mbps synchronous optical transmitters (SMOT-1) using RS-422 multiport, thereby reducing the number of unnecessary operating terminals, and providing a single system. Allocate one port per port to improve the communication speed, connect the operator's operating terminal to a local area network (LAN) to enable remote operation, and concentrate alarms in the centralized operating system other than the operating terminal connected to the LAN. It has the effect of monitoring and remote operation.

Claims (11)

In the system for operating and managing a plurality of optical transmission device for configuring a communication system, An operation port aggregation processing means for providing a multiport, allocating one port per corresponding optical transmission device among the plurality of optical transmission devices, and transmitting and receiving data through each port; Operation management means for monitoring and remotely operating the plurality of optical transmission devices by accessing the operation port aggregation processing means through a local area network; And Centralized operation management means for centrally monitoring and remotely operating alarms generated from the plurality of optical transmission devices by accessing the operation port aggregation processing means through the local area network (LAN). Optical transmission device operation management system comprising a. The method of claim 1, The multiport, RS-422 (Standard Recommended Standard)-The optical transmission device operation management system, characterized in that the multi-port. The method of claim 1, The plurality of optical transmission device, Optical transmission device operation management system, characterized in that a plurality of 155Mbps synchronous optical transmission device (SMOT-1: Synchronous Multiplexing and Optical Transmission system level 1). The method according to any one of claims 1 to 3, The operation port collecting processing means, And a communication server, wherein the communication server transmits and receives data to and from the RS-422 multiport, and transmits a reception result to the operation management means and the centralized operation management means. In the optical transmission device operation management method applied to the optical transmission device operation management system, In order to manage and manage a plurality of optical transmission devices that correspond one-to-one to a multi-port in the operation management means and the centralized operation management means, the status port and operation commands for the corresponding optical transmission devices connected to each port are managed through the local area network (LAN). A first step of transmitting to the collecting processing means; A second step of grasping a state of the corresponding optical transmission device connected to each port according to a status inquiry and an operation command by the operation port aggregation processing means and transferring the state to the operation management means and the centralized operation management means; And A third step of informing the operator of the response result of the corresponding optical transmission apparatus in the operation management means and the centralized operation management means; Optical transmission device operation management method comprising a. The method of claim 5, The first step is, A fourth step in which the operation management means automatically connects to the communication server of the operation port aggregation processing means and transmits the status inquiry or operation command of the corresponding optical transmission device selected by the operator to the operation port aggregation processing means; And The alarm collection and analyzer of the intensive management means automatically connects with the communication server of the operation port aggregation processing means to execute the status inquiry or remote operation command of the corresponding optical transmission device selected by the operator of the intensive management means. The fifth step of transmitting to the port aggregation processing means Optical transmission device operation management method comprising a. The method according to claim 5 or 6, The second step, A sixth step of, when the status inquiry or operation command message is received from the operation management means and the centralized operation management means, the operation port aggregation processing means storing the received message delimiter and the message requester together; A seventh step of waiting for a response from the corresponding optical transmission apparatus after finding a port to which the corresponding optical transmission apparatus is connected and transmitting a status inquiry or operation command message; When the response message for the status inquiry or operation command message is received from the corresponding optical transmission device, the operation port aggregation processing means searches for the operation management means or the centralized operation management means that requested the message by using previously stored information. An eighth step of analyzing whether the connection with the message requestor is valid; And As a result of the analysis of the eighth step, if the connection with the message requestor is valid, the message read from the optical transmission apparatus is transmitted to the operation management means and the centralized operation management means. Later, the ninth step to the sixth step Optical transmission device operation management method comprising a. The method of claim 7, wherein The third step, A tenth step in which the operation management means analyzes a message received from the operation port aggregation processing means and informs an operator of an alarm occurrence state, a status inquiry content, and a remote control result; An eleventh, the alarm collection and analyzer of the centralized operation management means analyzing the message received from the operation port aggregation processing means and delivering the alarm occurrence contents, the status inquiry contents, and the remote control results to a plurality of connected operator interfaces, respectively; step; And A twelfth step of each operator interface informing the user of the information received from the alert collection and analyzer; Optical transmission device operation management method comprising a. The method of claim 8, The optical transmission device, 155Mbps synchronous optical transmission device (SMOT-1: Synchronous Multiplexing and Optical Transmission system level 1) characterized in that the operation management method of the optical transmission device. The method of claim 8, The multiport, RS-422 (Standard Recommended Standard) of the balanced series interface operation management method characterized in that the multi-port. In the optical transmission device operation management system having a processor, In order to manage and manage a plurality of optical transmission devices that correspond one-to-one to a multiport in the operation management means and the centralized operation management means, the status port and operation commands for the corresponding optical transmission devices connected to each port are managed through the local area network (LAN). Transmitting to the collecting processing means; A function of grasping a state of the corresponding optical transmission apparatus connected to each port in accordance with a status inquiry and an operation command by the operation port aggregation processing means and transferring the state to the operation management means and the centralized operation management means; And A function of informing the operator of the response result of the corresponding optical transmission device in the operation management means and the centralized operation management means; A computer-readable recording medium having recorded thereon a program for realizing this.