JP2005303767A - Communication line switching system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To construct a communication line switching apparatus which is remotely controlled from a remote control terminal via a computer network, from a plurality of communication line switching units having different switch configurations. <P>SOLUTION: If a remote control starting instruction is received from a remote control terminal 40, a microcomputer 21 of an optical communication line switching control device 20 reads a switching class and the present switching status information from a class information memory 32 and updates remote control interface information stored in a remote control interface memory 22. A worker utilizes a remote control screen displayed on the remote control terminal 40 to instruct the changeover of a switch of an optical communication line changeover device 10. The optical communication line switching control device 20 then applies the switching instruction to an instructed optical communication line switching unit, and a controller 31 of the optical communication line switching unit controls a control circuit 33, to change over an optical switch 34. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

The present invention relates to a communication line switching system for controlling a communication line switching device from a remote control terminal via a computer network to switch the communication line, and more particularly to controlling the optical communication line switching device to switch the optical communication line. The present invention relates to an optical communication line switching system.

A communication system including an optical communication line switching system to which the present invention is applied includes an optical communication line switching apparatus that establishes a communication link between an arbitrary one of communication apparatuses T1 and T2 and a communication apparatus T9 as shown in FIG. SW1, optical communication line switching device SW2 that establishes a communication link between any one of communication devices T3 to T4 and communication device T10, and light that establishes a communication link between any one of communication devices T5 to T8 and communication device T11 It is comprised with communication line switching device SW3. Each of the optical communication line switching device SW1 and the optical communication line switching device SW2 has a one-to-two switch configuration including a common port P0 and two connection ports P1 and P2. The optical communication line switching device SW3 has a one-to-four switch configuration including a common port P0 and four connection ports P1, P2, P3, and P4.

That is, in the communication system comprising optical communication line switching system shown in FIG. 7, the optical communication line switching device SW1 is a connection port P1 to the optical fiber cable FC ₁ communication device via a T1, optical fiber connection ports P2 cable FC ₂ the communication device T2 through, are connected to the common port P0 communication apparatus via the optical fiber cable FC ₉ to T9. Further, optical communication line switching device SW2 is a connection port P1 to the optical fiber cable FC ₃ communication device via the T3, a connection port P2 to the optical fiber cable FC ₄ communication device via the T4, optical fiber cable _{FC 10} to common port P0 Are respectively connected to the communication device T10. Additionally, optical communication line switching device SW3 is connected port P1 to the optical fiber cable FC ₅ communication apparatus through T5, the communication device T6 connection ports P2 through the optical fiber cable FC _6, the optical fiber connection ports P3 cable FC ₇ the communication device T7 via the connection port P4 to an optical fiber cable FC ₈ communication device via the T8, are connected to common port P0 in the optical fiber cable FC ₁₁ communication device T11 through.

Japanese Unexamined Patent Publication No. 2003-274464 (Patent Document 1) discloses a remote control system that controls an optical communication line switching system from a remote control terminal. As shown in FIG. 8, this conventional remote control system includes optical communication line switching devices SW1 to SW3 connected to a local area network LAN via respective network interfaces, and a local area network LAN via the network interface. And a remote control terminal PC such as a personal computer connected to the PC. In short, the optical communication line switching devices SW1 to SW3 are optical communication line switching devices having hardware and software that can be connected to an optical communication line switching element and its control circuit and a computer network. The remote control terminal PC is a remote control terminal having hardware and software that can be connected to a computer network.

In this conventional remote control system, since the optical communication line switching devices SW1 and SW2 have the same one-to-two switch configuration, a two-channel optical communication line switching device is configured, and it is as if it is a single optical communication line switching device. It can be connected to an area network LAN. This can constitute a two-channel optical communication line switching device even if the optical communication line switching devices SW1 and SW2 have the same one-to-four switch configuration. If eight optical communication line switching devices having the same switch configuration are used, an 8-channel optical communication line switching device can be configured.

In the conventional remote control system, as described above, a multi-channel optical communication line switching device can be configured with a plurality of optical communication line switching devices only when the switch configuration is the same. However, as shown in FIG. 7, for example, the optical communication line switching devices SW1 and SW2 having a one-to-two switch configuration and the optical communication line switching device SW3 having a one-to-four switch configuration are combined into one optical communication line switching device. Cannot be connected to the local area network LAN. That is, optical communication line switching devices having different switch configurations cannot be mixed and connected to the local area network LAN as if they were one optical communication line switching device.

For this reason, in the conventional remote control system, when the switch configuration is different, it is necessary to prepare an optical communication line switching device for each switch configuration. For example, an optical communication line switching device having a one-to-two switch configuration, a multi-channel optical communication line switching device having a one-to-two switch configuration, an optical communication line switching device having a one-to-four switch configuration, and a multi-channel type having a one-to-four switch configuration It is necessary to prepare an optical communication line switching device and various types of optical communication line switching devices. When such a conventional remote control system is applied to an optical communication line switching system having a complicated switch configuration, an operation error in operation and an increase in operation cost are caused. Further, in the conventional remote control system, since the switch configuration of the optical communication line switching device is fixed, the configuration is changed from, for example, a one-to-two switch configuration to a one-to-four switch configuration in an operating optical communication line switching system. When it is necessary to change, there is also a problem that an optical communication line switching device having a one-to-two switch configuration must be completely replaced with an optical communication line switching device having a one-to-four switch configuration. Furthermore, in an optical communication line switching system in operation, it is impossible to add a channel at the installation site with a multi-channel optical communication line switching device. Therefore, changing the switch configuration of an optical communication line switching device in operation and adding a channel will necessarily involve the removal of the optical communication line switching device in operation and the installation of a new optical communication line switching device. There is a problem that the cost and the operation cost are high.

JP 2003-274464 A

  The problem to be solved by the present invention is a communication line switching system for switching a communication line by remotely controlling a communication line switching apparatus from a remote control terminal via a computer network. It is equipped with a plurality of communication line switching units. Here, the switching type is the type of switch configuration of the transmission line switching elements constituting the communication line switching unit, that is, the type of switch configuration such as 1-to-2 switch or 1-to-4 switch. It also includes types such as configurations with different number of channels and presence / absence of additional functions.

  In order to solve the above-described problems, a communication line switching device is configured by a plurality of communication line switching units and a communication line switching control device. The communication line switching unit is a type information memory storing type information indicating a type of switching of the communication line switching unit, a control unit that drives and controls the communication line switching element, and a switching type of the communication line switching unit. A type information memory capable of reading the type information from the switching control device. The communication line switching control device includes a microcomputer connected to the computer network via a network interface and an interface memory. The communication line switching control device reads the switching type from the type information memory, and updates the operation interface information for remote control stored in the interface memory.

According to the present invention, there is provided a communication line switching device for controlling a plurality of communication line switching units having different switching types with a single communication line switching control device. Accordingly, since it is no longer necessary to provide a communication line switching control device for each switching type, the operation cost of the communication line switching system for switching the communication line by controlling the communication line switching device from the remote control terminal via the computer network is reduced. In addition, it has become possible to significantly reduce work mistakes by workers. Furthermore, since the communication line switching device having various configurations can be realized by appropriately combining the communication line switching units, the facility introduction cost can be reduced.

  A communication line switching system according to the present invention includes a communication line switching device including a plurality of communication line switching units and a communication line switching control device, and a remote control terminal connected to the communication line switching device via a computer network. It is composed of The communication line switching unit is a type information memory storing type information indicating a type of switching of the communication line switching unit, a control unit that drives and controls the communication line switching element, and a switching type of the communication line switching unit. A type information memory capable of reading the type information from the switching control device. The communication line switching control device includes a microcomputer connected to the computer network via a network interface and an interface memory. Then, the communication line switching control device reads the switching type from the type information memory according to the remote control start instruction from the remote control terminal, and updates the operation interface information for remote control stored in the interface memory To do.

An optical communication line switching system according to an embodiment of the present invention includes three optical communication line switching units 30A, 30B, and 30C and one optical communication line switching control device 20, as shown in FIG. The communication line switching system includes a switching device 10 and a remote control terminal PC connected to the optical communication line switching device 10 via a computer network LAN.

The optical communication line switching unit 30 includes a control controller 31 comprising a CPU, a ROM, a RAM, etc., a type information memory 32, a drive circuit 33, an optical switch element 34 configured according to the switching type of the line switching unit, and a switching state indicator 35. , And a manual switching button 36.

The optical communication line switching control device 20 includes a network interface 23, a microcomputer 21 connected to the computer network LAN via the network interface 23, a remote operation interface memory 22, and an operation mode setting switch 24.

An overview of the optical communication line switching device 10 is as shown in the perspective view seen from the front side in FIG. 2 and the perspective view seen from the back side in FIG. An overview of the optical communication line switching unit 30 is as shown in the side view of FIG. Further, an overview of the optical communication line switching units 30B and 30C is as shown in the side view of FIG. As shown in FIGS. 2 to 4, the three optical communication line switching units 30 </ b> A, 30 </ b> B, and 30 </ b> C are housed in the case 11 of the optical communication line switching device 10.

An empty space 19 for accommodating another optical communication line switching unit is prepared in the case 11 of the optical communication line switching device 10. Furthermore, the optical communication line switching control device 20 is accommodated in the case 11 of the optical communication line switching device 10. The optical communication line switching control device 20 is connected to the three optical communication line switching units 30A, 30B, and 30C by cables. The case 12 of the optical communication line switching unit 30A is equipped with a manual switching button 36, a switching state indicator 35, an optical communication line connection port 16, and a connection connector 17 for connecting to the optical communication line switching control device 20. Further, in the case 11 of the optical communication line switching device 10, the power switch 13 and the operation mode setting switch 24 are mounted on the front, and the network connection port 14 and the power port 15 are mounted on the back.

The controller 31 is composed of, for example, a microcomputer and a memory, and governs the overall operation of the optical communication line switching unit 30. The controller 31 receives an optical communication line switching instruction by pressing the manual switching button 36 or an optical communication line switching instruction by remote operation sent from the optical communication line switching control device 20 via the connection connector 17. Receiving the optical communication line switching instruction, the controller 31 updates the display of the switching state indicator 35 and sends a switching signal to the drive circuit 33. The drive circuit 33 drives the optical switch element 34 based on the switching signal.

The drive circuit 33 and the optical switch element 34 have different configurations depending on the optical communication line switching type. That is, a one-to-two switch optical communication line switching unit is a one-to-two optical switch and a drive circuit corresponding thereto, and a one-to-four switch optical communication line switching unit is a one-to-four optical switch. It is an element and the optical drive circuit corresponding to this.

The optical switch element 34 and each optical communication line connection port 16 are appropriately connected by an optical fiber. Further, the controller 31 reads information indicating the optical communication switching type stored in the type information memory 32 in response to a unit type information read instruction sent from the optical communication line switching control device 20 via the connection connector 17. And sent to the optical communication line switching control device 20. The same applies to the optical communication line switching units 30B and 30C.

The network interface 23 mediates between the computer network LAN connected to the network connection port 14 and the microcomputer 21 in an electrical and protocol manner.

Remote operation interface information is stored in the remote operation interface memory 22. This remote operation interface information is transmitted to the remote operation terminal 40 connected to the optical communication line switching control device 20 via the computer network LAN, and information for constructing an operation display screen on the remote operation terminal 40. It is.

Next, the operation of the embodiment of the present invention will be described with reference to the flowchart of FIG. When an operator operates an input device such as a keyboard to input a remote control start instruction to the remote control terminal 40, the remote control terminal 40 sends a remote control start signal to the optical communication line switching control device 20 via the computer network LAN. Send. When the microcomputer 21 of the optical communication line switching control device 20 receives the remote control start signal via the network interface 23 (101), the unit type information and the current switching state from the optical communication line switching units 30A, 30B, and 30C. Information is read (102). Subsequently, the microcomputer 21 updates the interface information for remote control stored in the remote operation interface memory 22 based on the unit type information and the current state information of switching (103), and the computer network LAN is updated. The updated interface information for remote control is transmitted to the remote control terminal 40 via (104).

When receiving the updated interface information for remote control via the computer network LAN, the remote control terminal 40 displays a remote operation screen 42 as shown in FIG. The remote operation screen 42 corresponds to the front view of the case 11 of the optical communication line switching device 10, and includes rectangles 43, 44, 45, respectively corresponding to the optical communication line switching units 30 </ b> A, 30 </ b> B, 30 </ b> C, and the empty space 19. 46 is included. In the rectangles 43, 44, and 45, the selected manual switching button is displayed as a black circle 47, and the unselected manual switching button is displayed as a white circle 48. That is, the remote operation screen 42 of FIG. 5 shows that the optical communication line switching unit 30A including the one-to-two optical switch is connected to the connection port P1, the optical communication line switching unit 30b including the one-to-two optical switch is connected to the connection port P2, and The optical communication line switching unit 30C including the one-to-four optical switch indicates that the connection port P4 is switched.

When an operator operates an input device such as a mouse to switch the manual switching button on the remote operation screen 42, a remote control switching instruction signal is transmitted to the optical communication line switching control device 20 via the computer network LAN. This switching instruction signal includes information specifying the optical communication line switching unit number and the position of the manual switching button, that is, the connection port.

The optical communication line switching control device 20 waits for reception of a remote control start signal from the remote control terminal 40. Therefore, when the optical communication line switching control device 20 receives the switching instruction signal (105), it gives a switching instruction to the instructed optical communication line switching unit, and operates the optical switch of the optical communication line switching unit to operate the optical communication line. (106).

As described above, when the worker operates the remote operation terminal 40 to access the optical communication line switching device 10, the microcomputer 21 of the optical communication line switching control device 20 receives the optical communication line switching units 30A, 30B, and 30C from the respective optical communication line switching units 30A, 30B, and 30C. Read and acquire unit type information and current switching status information. Next, based on the acquired information, the remote operation interface information is read from the remote operation interface memory 22 to construct an operation screen, and the constructed operation screen information is sent to the remote operation terminal 40. As a result, a remote operation screen 42 as shown in FIG. 5 is displayed on the display screen 41 of the remote operation terminal 40. The worker selects and clicks a desired button image with a mouse or the like from the switching button images of the remote operation window 42 displayed on the display screen of the remote operation terminal 40, and performs the remote operation of switching the optical communication line.

Such an operation can be achieved by providing a microcomputer 21 of the optical communication line switching control device 20 with a web server function and further automatically generating a dynamic HTML file by CGI (Common Gateway Interface). Can be realized by using the web browser software of the remote control terminal. When a plurality of remote operation workers are assumed, input of user information is requested at the time of remote operation, and the presence / absence of remote operation use authority is determined. Or you may make it add the function of restrict | limiting the authority of remote operation utilization for every optical communication line switching unit equipped.

As mentioned above, although the Example which applied this invention to the optical communication system was described in detail, of course, this invention is applicable also to another communication system. Further, although the local area network LAN is adopted as the computer network, the Internet or a combination of the Internet and the LAN may be used. Similarly, the remote control terminal is not limited to a stationary personal computer, and may be a mobile terminal. Further, the type information in this specification is not limited to information set by reading from a type information memory such as a semiconductor memory, but also includes information set by a semi-fixed switch, for example. In short, the type information memory is a type information setting storage means.

It is a block block diagram of the optical communication line switching system of one Example of this invention. It is the perspective view seen from the front side of one Example of the optical communication line switching apparatus provided with the some optical communication line switching unit. It is the perspective view seen from the back side of one Example of the optical communication line switching apparatus provided with the some optical communication line switching unit. It is a side view of one Example of an optical communication line switching unit. It is an example of a remote operation screen. It is a flowchart of an example of operation | movement of an optical communication line switching control apparatus. It is an example of the communication system provided with the optical communication line switching system. It is a figure which shows the conventional optical communication line switching system.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Optical communication line switching device 11, 12 Case 13 Power switch 14 Network connection port 15 Power port 16 Optical communication line connection port 17 Connection connector 19 Empty space 20 Optical communication line switching control device 21 Microcomputer 22 Remote operation interface memory 23 Network interface 24 operation mode setting switch 30A, 30B, 30C optical communication line switching unit 31 controller 32 type information memory 33 drive circuit 34 optical switch element 35 switching state indicator 36 manual switching button 40 remote control terminal 41 display screen 42 of remote control terminal remote Operation screen FC _{1 to} FC ₁₁ Optical fiber cable T1 to T5 Communication device SW1 to SW3 Optical communication line switching device LAN Local area network

Claims (6)

A communication line switching system comprising a communication line switching device including a plurality of communication line switching units and a communication line switching control device, and a remote control terminal connected to the communication line switching device via a computer network. And
The communication line switching unit includes a communication line switching element according to a switching type, a control circuit that drives and controls the communication line switching element according to an instruction from the communication line switching control device, and type information indicating the switching type. It is configured with a type information memory that can be read from the communication line switching control device, and
The communication line switching control device includes a microcomputer connected to the computer network via a network interface and a remote operation interface memory, reads a switching type from a type information memory of the communication line switching unit, and the remote operation interface memory A communication line switching system for updating remote control interface information stored in the communication line. The communication line switching control device reads the switching type from the type information memory of the communication line switching unit based on the access from the remote control terminal, and updates the remote operation interface information stored in the remote operation interface memory The communication line switching system according to claim 1, wherein: The communication line switching system according to claim 2, wherein the remote control terminal constructs an operation display screen based on the remote operation interface information. The communication line switching unit includes a manual control circuit capable of manually controlling communication line switching, and the communication line switching control device includes a selection unit for selecting validity / invalidity of the manual control circuit. The communication line switching system according to claim 1. The communication line switching system according to claim 1, wherein the communication line switching unit and the communication line switching control device are housed in a single casing. 6. The communication line switching system according to claim 1, wherein the communication line switching unit is an optical communication line switching unit, and the communication line switching element is an optical switch element.

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