JP3398702B2 - Communications system - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication system, and more particularly to a communication system capable of specifying a location where an abnormality occurs when an abnormality occurs in a communication line.

[0002]

2. Description of the Related Art As a communication system for monitoring the communication state between a security terminal connected to a plurality of networks such as LAN and a security center, the security center polls the security terminal and recognizes the response. There is known a communication system that monitors a communication state. FIG. 8 is a block diagram showing the configuration of such a system.

The security terminals 811 to 81n are connected to the router 810 via a communication line such as a telephone line.
Further, the communication line may be via LAN. Similarly, the security terminals 8n1 to 8nn are also connected to the router 8n0. The security terminals 811 to 8nn are terminal devices that detect anomalies such as fire, intrusion, and theft, and include, for example, general household security terminals, tenant security terminals, bank security terminals, and the like. The routers 810 to 8n0 may be replaced with a connection device such as a switching hub. The routers 810 to 8n0 are connected to the security center 801 via a communication line such as a telephone line. Also at this time, a LAN or the like may be used for the connection. The upper security center 802 is similarly connected to the security center 801.

The router 810 establishes a connection between the security center 801 and the security terminals 811 to 81n according to an instruction from the security center 801. For example, when the security center 801 notifies the security terminal 811 of a connection request, the router 810 establishes a connection between the security center 801 and the security terminal 811. Similarly, the router 8n0 also has a security center 801, security terminals 8n1 to 8n.
establish a connection with n.

The security center 801 monitors the state of communication lines between the security terminals 811 to 8nn. That is, it is monitored whether or not an abnormality such as disconnection has occurred in the communication line between the security terminals 811 to 8nn. The upper security center 802 performs overall management of the security center 801. That is, the information regarding the communication state notified from the security center 801 is grasped.

For example, the security center 801 has a router 81.
The security terminal 811 is polled via 0, and the communication state with the security terminal 811 is monitored by the response. If the communication status is normal, the security center 801
Can receive a response from the security terminal 811.
Therefore, when the security center 801 cannot obtain a response from the security terminal 811, the security center 801 recognizes that an abnormality has occurred in the communication line with the security terminal 811, and notifies the upper security center 802 to that effect. . FIG. 9 is a sequence diagram showing the flow of information in the security center. The security center 801 also performs the same operation as described above with respect to the other security terminals (812 to 8nn). FIG. 10 is a sequence diagram showing the flow of information in the security center.

[0007]

However, in the above system, the abnormality in the communication state is caused by the security center 801 and the router 8.
There is a problem that the security center 801 cannot specify whether it is caused by the communication line between 10 to 8n0 or the communication line between the router 801 and the security terminals 811 to 8nn. Therefore, there is a problem that it takes time to restore the communication state.

[0008] Further, if the communication state is abnormal, the security center 801
When the communication line between the routers 810 to 8n0 and the router 810 to 8n0 is caused, an alarm indicating an abnormal communication state between the security center 801 and all the security terminals (811 to 8nn) connected to the routers 810 to 8n0 is issued. Many are issued. And the center manager will spend a great deal of effort in dealing with it,
There is a problem of increasing labor costs.

Therefore, the present invention has been made to solve the above problems, and it is an object of the present invention to provide a communication system capable of specifying a location where an abnormality occurs when an abnormality occurs in a communication line. And

[0010]

In the communication system according to the first aspect of the present invention, the center station identifies the location of the abnormality in the communication line by monitoring the response from the terminal by polling.

In the communication system , the location of the specified abnormality is a communication line between the terminal device and the connection device or between the center station and the connection device.

Further, the center station, when not get a response from one terminal device, polls the other terminal device connected to the same connection device as one of the terminal device, from another terminal device When the response is received, the location of the abnormality is identified as the communication line between the one terminal device and the connection device.

Furthermore, the center station, when not get a response from the terminal device sequentially change the polling address to any other terminal device connected to the same connection device as the terminal device, another terminal device Monitor the response from
When no response is detected from a number of terminal devices, the location of the abnormality is identified as the communication line between the center station and the connection device.

In the communication system according to the second aspect of the present invention, the center station issues an alarm indicating the specified abnormal place.
Force

[0015] In the communication system according to the invention of claim 3, wherein the terminal device is a security device.

[0016]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of a communication system according to the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing the configuration of a communication system according to the present invention.
The security terminal 100 is a local area network (LA
N) Connected to the router 20 via 400. Similarly,
The security terminal 101 is connected to the security terminal 10 via the LAN 401.
n is connected to the router 20 via the LAN 40n. The security terminals 1n0 to 1nn are LANs 4n0 to 4nn.
Is connected to the router 2n via. Security terminals 100-1
nn is a terminal device that detects anomalies such as fire, intrusion, and theft, and examples thereof include a general home security terminal, a tenant security terminal, and a bank security terminal.

The routers 20 to 2n are connected to the security center 40 via LANs 30 to 3n. Router 20-2n
According to the instruction, the security center 40 and the security terminal 100-
Establishes connection with 1nn. For example, in response to an instruction from the security center 40, the router 20 causes the security terminal 10 to
0 establishes a connection between the security center 40. Router 2
0 to 2n may be installed anywhere as long as power can be supplied. For example, it may be installed at the same place as the security center 40.

The security center 40 includes security terminals 100 to 1n.
It constantly monitors whether or not an abnormality such as a disconnection has occurred in the communication line with n. That is, the communication lines (LANs 400 to 4) between the security terminals 100 to 1nn and the routers 20 to 2n.
nn) or whether there is an abnormality in the communication line (LAN 30 to 3n) between the security center 40 and the routers 20 to 2n.

The security center 40 is connected to the upper security center 41. The connection may be via a LAN or a telephone line. The upper security center 41 manages the security center 40 as a whole. That is, the information on the occurrence of abnormality in the communication line monitored by the security center 40 is grasped.

Next, the operation of the communication system according to the present invention will be described with reference to FIGS. FIG. 2 is a flowchart for explaining the operation of the security center 40. First, a normal operation will be described.

The security center 40 has a communication line (LAN 40
0 to 4nn, LANs 30 to 3n), a confirmation request (polling) is made to the security terminals 100 to 1nn to confirm whether or not they are in a normal state. At this time, router 2
Take security terminals 100 to 1nn connected to 0 as an example. Then, the security center 40 first polls the security terminal 100 (step S201).

The security center 40 sends instruction data to the router 20 to establish a connection with the security terminal 100. FIG. 3 is an explanatory diagram showing an example of the structure of such instruction data. At this time, as shown in FIG.
Assume that the security terminal 100 is designated as the address and ENQ (polling) is designated as the message as the instruction data. Then, the router 20 establishes a connection between the security terminal 100 and the security center 40.

When the polling is notified, the security terminal 10
The 0-1nn transmits the response to the security center 40 via the routers 20-2n. Therefore, security center 4
0 determines whether or not there is a response from the security terminal 100 (step S202). At this time, the communication line (LA
N400 to 4nn and LANs 30 to 3n) are normal. Therefore, the security center 40 uses the security terminal 100.
The response from is received (step S202). And
By receiving the response, it is possible to monitor whether or not the state of the communication line is normal.

Next, the security center 40 designates the next polling destination (step S203). Here, for example, it is assumed that the security terminal 101 is designated. Then, the security center 40 similarly polls the security terminal 101 (step S201). Below, step S2
The processing after 02 is executed. And the security terminal 102,
Similarly, the polling is performed on 103, ..., 10n, and communication lines (LAN400-4nn, LAN30-3
It constantly monitors whether or not n) is normal. As described above, the security center 40 always repeatedly executes the processing of steps S201 to S203.

The security terminal 1 connected to the router 20
Although the monitoring of the state of the communication line between 00 and 10n has been described as an example, the security terminal 1n0 connected to the router 2n.
The same applies to the monitoring of the state of the communication line between 1 to 1nn.

Next, the operation when an abnormality occurs in the communication line will be described. First, assume that an abnormality such as a line disconnection has occurred in the LAN 400. FIG. 4 is a sequence diagram for explaining the operation of the security center 40. LAN400
Due to the occurrence of an abnormality in the security center 40, the security center 40 cannot receive a polling response to the security terminal 100 (step S202). Therefore, polling is performed for another security terminal connected to the router 20 (step S204). The other security terminal is, for example, the security terminal 101.

The security center 40 is connected to the security terminal 10
It is determined whether there is a response from 1 (step S2)
05). At this time, since the abnormality has occurred only in the LAN 400, the security center 40 can receive the response from the security terminal 101 (step S205).
Therefore, the security center 40 includes the security terminal 100 and the router 2
It can be determined that an abnormality has occurred in the communication line (LAN 400) with 0 (step S208).

Then, the security center 40 notifies the center manager of that effect (alarm) and sends it to the upper security center 41. For example, the fact may be displayed on the monitor or printed by using a printer or the like to notify the center manager. FIG. 5 is an explanatory diagram showing an example of such information displayed on the monitor. Therefore, the center manager can recognize that an abnormality has occurred in the communication line (LAN 400) between the security terminal 100 and the router 20.

Next, the security center 40 clears the value of the error counter (step S209). For example, the value of the error counter is set to 0. The error counter is a counter for counting communication lines in which an abnormality has occurred. Then, the security center 40 repeats the operation after step S201.

The operation has been described by taking the case where an abnormality occurs in the communication line (LAN 400) between the security terminal 100 and the router 20 as an example. LAN 401 to LAN 4nn
The operation is the same when an abnormality occurs in.

Next, the security center 40 and the routers 20 to 2n
An operation will be described when an abnormality occurs in the communication line (LAN 30 to 3n) between and. Here, LAN 30
An example will be described in which an abnormality occurs. Figure 6
It is a sequence diagram for explaining the operation of the security center 40.

When an abnormality occurs in the LAN 30,
The security center 40 cannot receive a response from the security terminal 100 (step S202). Therefore, the security center 40 polls other security terminals connected to the router 20 (step S204). The security terminal 101 is used as another terminal.

Next, the security center 40 operates the security terminal 101.
It is determined whether there is a response from (step S20).
5). Also here, the response from the security terminal 101 cannot be received. Therefore, the value of the error counter is increased (step S206). Here, it is assumed to be incremented by one. Then, the security center 40 determines whether or not the value of the error counter has reached a predetermined value (step S20).
7).

The predetermined value may be changed in advance or during operation by operating the terminal or the like from outside the security center 40. For example, the predetermined value is 2. At this time, since the value of the error counter is 1 and the predetermined value is 2, the security center 40 polls other security terminals (step S204). As another security terminal, the security terminal 10
Set to 2. After that, the security terminal 40 repeats the operations from step S204. When the value of the error counter does not reach the predetermined value in step S207, the security terminals connected to the router 20, such as the security terminals 102, 103, ... 10n, 101. Poll and monitor the response.

When the value of the error counter reaches a predetermined value (step S207), the security center 40 determines that the router 20
It is determined that an abnormality has occurred in the communication line (LAN 30) between the security center 40 and the security center 40 (step S210). At this time, since the predetermined value is assumed to be 2, the security center 40 determines that an abnormality has occurred in the LAN 30 when the security terminal 102 responds.

Then, the security center 40 notifies the center manager of the occurrence of an abnormality (alarm) in the LAN 30 and also notifies the upper security center 41. In this case as well, the fact may be displayed on the monitor or printed by using a printer or the like to notify the center manager. FIG. 7 is an explanatory diagram showing an example of such information displayed on the monitor. Therefore, the center manager and the upper security center 41 can recognize that an abnormality has occurred in the communication line (LAN 30) between the security center 40 and the router 20.

Although the operation when the LAN 30 has an abnormality has been described as an example, the operation when the LAN 3n has an abnormality is similar.

As described above, according to this embodiment, when an abnormality occurs in the communication line, the abnormality causes the communication line (LAN 30 between the security center 40 and the routers 20 to 2n).
~ 3n) or security terminals 100 to 1nn and router 20 to
Since the security center 40 can specify whether it is caused by the communication line (LAN 400 to 4nn) with the 2n,
It can be expected to speed up the restoration of communication lines. Further, since the security center 40 issues only necessary alarms, the center manager is not bothered by unnecessary alarms. Therefore, it is possible to reduce labor costs.

Further, the present embodiment can be realized by changing the control of the security center in the conventional communication system. For example, it can be realized by changing the control program of the security center. Therefore, there is no need to develop an additional device. Therefore, it is possible to reduce the cost required for introducing the communication system according to the present invention.

[0040]

According to the first aspect of the invention, the center station identifies the location of the abnormality in the communication line by monitoring the response from the terminal by polling.
When an abnormality occurs in the communication line, the location of the abnormality can be immediately repaired, and the entire communication system can be quickly repaired. Further, since the center station does not inadvertently generate a large number of alarms, it is possible to eliminate the trouble of dealing with the alarms by the center manager, and it is possible to reduce labor costs.

Further, the abnormality occurrence location is identified since the communication line between the connection device or between the center station to the terminal apparatus <br/> a connection device, an abnormality occurrence position and the terminal device connection unit and Communication line between the center station and the connection device. In particular, when the location of the abnormality is a communication line between the center station and the connection device, it is possible to avoid a situation in which unnecessary alarms are frequently generated as in the conventional security terminal.

[0042] Further, the center station, when not get a response from one terminal device, polls the other terminal device connected to the same connection device as the terminal device, a response from the terminal device If the error occurs, the location of the abnormality is identified as the communication line between the one terminal device and the connection device.
The location of the abnormality can be immediately repaired, and the entire communication system can be repaired quickly. Further, it is possible to prevent unnecessary alarms from being issued to the center station, so that the center manager is not bothered by unnecessary alarms, and it is possible to reduce labor costs.

[0043] The center station, when not get a response from the terminal device sequentially change the polling address to any terminal device connected to the same connection device as the terminal device,
Monitor the response from the terminal device and continuously exceed a specified number
When no response is detected from the terminal device, the abnormal point is identified as the communication line between the center station and the connected device, so the abnormal point can be immediately repaired, and the entire communication system can be quickly repaired. Can be realized. Further, it is possible to prevent unnecessary alarms from being issued to the center station, so that the center manager is not bothered by unnecessary alarms, and it is possible to reduce labor costs.

[0044]

[0045] When the terminal device is a security device can enhance the security function. That is, when an abnormality occurs in the communication line, the communication line can be immediately repaired as described above, so that the reliability of the security system can be improved.

[Brief description of drawings]

FIG. 1 is a block diagram showing a configuration of a communication system according to the present invention.

FIG. 2 is a flowchart for explaining the operation of the security center 40.

FIG. 3 is an explanatory diagram showing an example of a configuration of instruction data.

FIG. 4 is a sequence diagram for explaining the operation of the security center 40.

5 is an explanatory diagram showing an example of information displayed by the security center 40. FIG.

6 is a sequence diagram for explaining the operation of the security center 40. FIG.

FIG. 7 is an explanatory diagram showing an example of information transferred by the security center 40.

FIG. 8 is a block diagram showing a configuration of a conventional communication system.

FIG. 9 is a sequence diagram for explaining the operation of the security center 801.

FIG. 10 is a sequence diagram for explaining the operation of the security center 801.

[Explanation of symbols]

20-2n router 30 to 3n LAN 40 Security Center 41 Upper Security Center 400-4nn LAN 100-1nn security terminal

─────────────────────────────────────────────────── ─── Continuation of the front page (58) Fields surveyed (Int.Cl. ⁷ , DB name) H04L 12/28 H04L 12/44

Claims (3)

(57) [Claims] 1.The center station (40) has a plurality of connecting devices.
(20 to 2n) and each communication line (3
0-3n), Each of the connection devices (20, 2n) has a plurality of terminals.
Each of the devices (100 to 10n, 1n0 to 1nn)
And each communication line (400-40n, 4n0-4
nn), The above The center stationEach of the above-mentioned terminal devices for polling
By monitoring the response from the
eachA communication system that monitors the status of the communication line with the terminal device.
In the systemThe above The center station isIf you can't get a response from one terminal
Connect to the connected device to which the terminal device is connected.
Polls other end devices that are
When a response is received from another terminal device, the one terminal
An error has occurred in the communication line between the device and the connected device.
When it is determined that no response can be obtained from the other terminal device
Is the polling destination and is connected to the one terminal device.
Another terminal device connected to the connected device
To a certain number of consecutive terminal devices
When the response is detected, the center station and the one terminal device
There is an error in the communication line with the connected device that is connected.
It is a configuration to judge that it has occurredCommunication system characterized by
Stem. 2. The center station indicates the location of the identified abnormality.
The communication system according to claim 1, which outputs a warning . 3. A terminal apparatus also claim 1 is security terminal
Is the communication system according to claim 2 .