JP3644008B2 - Redundant information relay device and switching control method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a duplex information relay apparatus and a switching control method for a center system in various notification monitoring systems.
In the case of fire detection, gas leak detection, illegal intrusion detection, etc. in general households, offices, factories, etc. by sensors, etc., the center equipment is automatically notified and the fire department, gas company, We will report to the police station and dispatch security guards. It is desired to improve the reliability of such an emergency call system.
[0002]
[Prior art]
FIG. 8 is a schematic explanatory diagram of an emergency notification system. The center system 100 includes a center device 101 and an information relay device 102. The center device 101 includes a display unit 101a for displaying notification contents and the like. An input operation unit 101b for operation input is provided. Reference numeral 103 denotes an exchange network including various exchanges, 104 denotes a LAN (local area network), 105 denotes a terminal device, and 106 denotes a sensor for detecting fire, detecting gas leak, detecting intrusion, and the like.
[0003]
A plurality of information relay apparatuses 102 are provided corresponding to the scale of the center system 100 and have a function of relaying information between the center apparatus 101 and a network such as the switching network 103 or the LAN 104. The center apparatus 101 transmits / receives information via a plurality of information relay apparatuses 102, processes emergency call information from the terminal apparatus 105, and displays the information on the display unit 101a.
[0004]
In addition, sensors 106 having various configurations and functions are arranged at monitored locations such as ordinary homes, offices, factories, etc., and connected to the terminal device 105. When occurrence, illegal intrusion, or the like is detected, the terminal device 105 automatically calls the center system 100 by the automatic call function. If the switching network 103 or the LAN 104 is not in a congested state or a failure state, the information relay device 102 of the center system 100 sends a response, so that the terminal device 105 sends emergency notification information including information such as a notification type and an emergency location. Send.
[0005]
The information relay device 102 of the center system 100 receives the emergency call information and transfers it to the center device 101. Further, according to the input information designating the terminal device 105 from the input operation unit 101b of the center device 101, a request for detailed information, a normality test, etc. can be made to the terminal device 105 via the switching network 103 or the LAN 104.
[0006]
FIG. 9 is an explanatory diagram of a conventional duplex information relay apparatus. The center system 100 is provided with duplex information relay apparatuses 102A and 102B, and the terminal apparatus 105 is connected to one of the duplex information relay apparatuses 102A and 102B. When a call is made and there is no response, a function for calling the other is provided. For example, when a call is made for route a from the terminal device 105-1 to the information relay device 102A, When it is not possible to connect to the information relay apparatus 102A due to congestion or failure, the route b destined for the information relay apparatus 102B is called. In this case, when the information relay apparatus 102B can be connected via the switching network 103, the terminal apparatus 105 transmits emergency call information to the center apparatus 101 via the switching network 103 and the information relay apparatus 102B.
[0007]
Similarly, when the route d is sent from the terminal device 105-2 to the information relay device 102B, the route c is sent to the information relay device 102A. In this case, when the terminal device 105-2 can connect to the information relay device 102A, the terminal device 105-2 transmits the emergency call information to the center device 101 via the switching network 103 and the information relay device 102A. Therefore, since it is highly possible to connect to the other information relay apparatus even if it is not possible to connect to one information relay apparatus, the emergency call information can be transmitted from the terminal apparatus.
[0008]
However, the center apparatus 101 increases the processing burden by performing the process of receiving emergency call information from both the information relay apparatuses 102A and 102B. Therefore, the configuration shown in FIG. 10 has been proposed in which the center apparatus 101 performs emergency call information reception processing via one information relay apparatus.
[0009]
In the figure, reference numeral 107 denotes a shared memory such as a hard disk, which is provided so as to be accessible from the information relay apparatuses 102A and 102B having a duplex configuration. One of the information relay apparatuses 102A and 102B having a duplex configuration is the active system, and the other is the standby system. That is, the center apparatus 101 performs emergency call information reception processing only through the active information processing apparatus.
[0010]
For example, if one information relay apparatus 102B is the active system, the other information relay apparatus 102A is a standby system. Between the terminal devices 105-1 to 105-n and the center apparatus 101, the switching network 103 and the active system are connected. A path is formed as shown by a dotted arrow through the information relay apparatus 102B. Then, the information received by the active information relay apparatus 102B is written in the shared memory 107 and held as the latest information. When a failure occurs in the information relay apparatus 102B, the information relay apparatus 102A is switched to the active system, and the processing is continued with reference to the contents of the shared memory 107.
[0011]
FIG. 11 is an explanatory diagram of a LAN connection configuration, showing a configuration in which the center apparatus 101 and the information relay apparatuses 102A and 102B having a duplex configuration are connected via a LAN (local area network) 108. Assuming that the information relay apparatus 102A is the active system, information is transmitted to and received from the center apparatus 101 via the LAN 108, as indicated by a dotted arrow. Information can also be transmitted to and received from the standby information relay apparatus 102B via the LAN 108.
[0012]
[Problems to be solved by the invention]
In the case of the duplex information relay apparatuses 102A and 102B shown in FIG. 9, for example, the terminal apparatus 105 can make an emergency call to any of the information relay apparatuses 102A and 102B. Accordingly, the connection relationship between the terminal device 105 and the information relay devices 102A and 102B having a duplex configuration may be different for each emergency call. Therefore, it is difficult to accurately manage the latest information of a certain terminal device 105 in each of the information relay devices 102A and 102B, so that the latest information of all the terminal devices 105 is managed in the center device 101. There is a need to.
[0013]
In that case, in the relatively large-scale center apparatus 101 that monitors several thousand to several tens of thousands of terminal apparatuses 105, the latest information of each terminal apparatus 105 is managed in an integrated manner. The burden becomes very large. Therefore, it is not suitable as the center apparatus 101 that requires quick processing. Further, when viewed from the center apparatus 101, there are constantly a plurality of information relay apparatuses that may receive information of a certain terminal apparatus 105. Therefore, it is necessary to monitor a plurality of lines. The processing load at 101 is also increased.
[0014]
In the case of the duplex information relay apparatuses 102A and 102B shown in FIG. 10, the processing burden on the center apparatus 101 can be reduced as compared with the configuration shown in FIG. 9, but for example, when a failure occurs in the active information relay apparatus In addition, the standby information relay device is started up and switched to the active system, and reception processing cannot be performed even if there is emergency call information from the terminal device until processing is started as the active system. is there.
[0015]
Since only one of the information relay apparatuses 102A and 102B having the duplex configuration receives the emergency call information from the terminal apparatus 105, the number of lines that can receive the emergency call information between the center system 100 and the switching network 103 is as follows. , Which is ½ of that shown in FIG. That is, there is a problem that the line efficiency is low.
[0016]
Further, when control information or the like is transmitted from the center apparatus 101 to the terminal apparatus 105 side, it is transmitted via the active information relay apparatus, increasing the processing burden on the active information relay apparatus. Therefore, the information relay devices 102A and 102B are devices having a higher capability than the case shown in FIG. 9, and there is a problem that the cost of the system increases.
[0017]
In the case of the LAN connection configuration shown in FIG. 11, when a failure such as disconnection of the positions 111, 112, and 113 indicated by X marks occurs in the LAN 108, communication between the information relay apparatus 102A and the center apparatus 101 is not performed. become unable. In addition, communication cannot be performed when a failure occurs in the center apparatus 101. In this case, there is a problem that the information relay apparatus 102A cannot determine whether the LAN 108 is abnormal or the center apparatus 101 is abnormal.
An object of the present invention is to solve the above-described problems of the conventional example and improve the reliability of a duplexed information relay apparatus.
[0018]
[Means for Solving the Problems]
The duplex information relay device of the present invention is (1) for connecting a plurality of terminal devices to the center device 4 via a network. Duplication An information relay device, A duplex information relay device, one of which is a primary device (eg, 1-0) and the other is a slave device (eg, 1-1), and the center device are connected via the local area network 3; The master device and the slave device are connected via a communication line 5 using an interface such as RS-232C for directly monitoring the mutual state. The master device is connected to the master device and the center device 4. A communication path by the local area network 3 is formed, the emergency call information received from the terminal device is transferred to the center device 4, and the communication path by the local area network 3 with the slave device The emergency call information received from the terminal device is transferred to the slave device, the state of the communication path between the master device and the center device 4, and the communication between the master device and the slave device The path status and Switching control units 6-0 and 6-1 that control the mode switching between the master device and the slave device by estimating the abnormal location based on the state of the master device and the slave device via the communication line 5. Is provided.
[0019]
(2) A shared memory (hard disk HDD 2-0, 2-1) is provided between the master device and the slave device, and the master device and the slave device receive emergency notification information from the terminal device via the network. The master device writes the reception notification information in the shared memory and transfers it to the center device 4, and the slave device writes the reception notification information in the shared memory and sends a transfer request to the center device 4 to the center device 4. It has a configuration to do.
[0020]
The switching control method according to the present invention also includes: (3) one of redundant information relay apparatuses 1-0 and 1-1 for connecting to a center apparatus 4 via a network between a plurality of terminal apparatuses and the center apparatus 4; And the other device is a slave device that forms a communication path with the master device, and the master device that has received the emergency call information from the terminal device sends the information to the center device 4. The slave device that has transferred and received the emergency call information from the terminal device transfers the information to the center device 4 via the master device, and the communication path between the master device and the center device 4 and the master device. Based on monitoring of the status of the communication path between the slave device and the status of the communication line directly connecting the master device and the slave device, there is an abnormality on the master device side. The master device is set to the slave device mode, and the slave device is set to the master device mode. It is intended to include a process of switching respectively.
[0021]
(4) When one of the duplex information relay devices 1-0 and 1-1 determines that the other is not in a normal state via the communication path and communication line 5, it operates in the main system and already in a normal state. When it can be determined that the slave device is in the state, the slave device includes a process of switching the mode at the time of startup.
[0022]
(5) The information from the center device 4 to the terminal device is received by the master device to determine whether the master device is in charge of the master device or the slave device, and the master device is in charge of the terminal. In the case of a device, information is transmitted from the master device to the terminal device via the network, and in the case of a terminal device in charge of the slave device, a transfer request for information is sent from the master device to the slave device. A process of transmitting information from the mobile station to the terminal apparatus via the network.
[0023]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is an explanatory diagram of the main part of an embodiment of the present invention, showing the main part of the center system, 1-0, 1-1 being a redundant information relay device, and 2-0, 2-1 being a shared memory. , 3 is a LAN (local area network), 4 is a center device, 5 is a communication line using an interface such as RS232-C, and 6-0 and 6-1 are switching control units. The center device 4 includes a display unit, an input operation unit, and the like as in the conventional example, but is not shown.
[0024]
Also, one hard disk 2-0 as a shared memory and one information relay apparatus 1-0 having a duplex configuration are paired, and the other hard disk 2-1 and the other information relay apparatus 1-1 are paired. One of these sets is switched to the master device mode, the other is switched to the slave device mode, or one of them is switched to the single master device mode.
[0025]
The main system apparatus (for example, the information relay apparatus 1-0) forms a communication path with the center apparatus 4 via the LAN 3, and accordingly, as shown by dotted arrows 3a and 3b, Send and receive. The slave device (for example, the information relay device 1-1) forms a communication path with the master device via the LAN 3, and transmits and receives information as indicated by dotted arrows 3c and 3d. Information is transmitted to and received from the center device 4 via the main system device.
[0026]
The hard disks 2-0 and 2-1 apply a file sharing management control method known as NFS (Network File System) to the information relay apparatuses 1-0 and 1-1 via the LAN 3. Are shared, and as shown by dotted arrows 2a, 2b, 2c, and 2d, they have a configuration in which they can access each other for writing and reading, store the same contents, and from the slave device to the master device When the mode is switched, the processing can be immediately taken over as the main system.
[0027]
In addition, the main system apparatus and the subordinate apparatus monitor the state between and between the center apparatus via the LAN 3 (primary path) by the switching control units 6-0 and 6-1, and the communication line. As shown by the dotted arrows 5a and 5b, the status signals are transmitted and received periodically through 5 (secondary path) to monitor the status of each other. For example, if the status signal via the secondary path cannot be received even after a predetermined time has elapsed, it is determined that an abnormality has occurred in the counterpart device. The switching control units 6-0 and 6-1 can be easily realized by a processing function by the processor of the information relay apparatuses 1-0 and 1-1.
[0028]
When, for example, one information relay device 1-0 having a duplex configuration is a primary device, when receiving emergency call information from a terminal device, the received information is written to the hard disk 2-0 and the information relay device as a slave device The data is also written to the hard disk 2-1 via the 1-1 and transferred to the center device 4. When the information relay device 1-1 as the slave device receives the emergency call information from the terminal device, the received information is written in the hard disk 2-1, and the information relay device 1-0 as the master device via the LAN 3. Forward to.
[0029]
The information relay device 1-0 writes the reception report information to the hard disk 2-0 and transfers it to the center device 4 via the LAN 3. Therefore, the contents of the hard disks 2-0 and 2-1 as the shared memory are always the same, and the center device 4 performs a process of receiving information from the information relay device 1-0 as the main device.
[0030]
When the center system is started up, the information relay apparatuses 1-0 and 1-1 having the duplex configuration are mutually switched by the switching control units 6-0 and 6-1 through the primary path and the secondary path. It is determined whether the information relay device is normally started up. When the own device has started up and the other device has not started up, it switches to the main device mode and starts operation. To do. Also, when the own device is started up, if the other device has already started up and is operating normally, the own device is switched to the mode of the slave device and the latest information held by the master device is updated. To the same content.
[0031]
Further, as described above, the main system apparatus and the subordinate apparatus monitor the state of the primary path and the secondary path by the switching control units 6-0 and 6-1, and on the main system apparatus side, the center apparatus When communication with the center device is not possible due to an abnormality in the communication path between the secondary device and the secondary device, it can be determined whether or not the secondary device is normal by the secondary path. Whether the communication path to the apparatus is normal can be recognized by the communication path to the main apparatus, and it can be determined by the secondary bus whether the main apparatus is normal. Therefore, the slave device can be switched to the mode of the master device in response to a request from the master device or autonomously.
[0032]
Further, since the information relay apparatuses 1-0 and 1-1 having the duplex configuration both receive the emergency call information from the terminal device, the accommodation line of the center system can be used effectively. Further, since the main system is in charge of the center device 4 and performs the emergency call information transfer processing, the center device 4 only needs to monitor a single line, reducing the processing load. Is done.
[0033]
FIG. 2 is an explanatory diagram of an embodiment of the present invention. The same reference numerals as those in FIG. 1 denote the same parts, 10 is a center system, 11 is an exchange network, 12-1 to 12-n are terminal devices, and 13 is a sensor. Indicates.
[0034]
If one information relay device 1-0 in the duplex configuration is the master device and the other information relay device 1-1 is the slave device, the emergency information from the terminal device 12-1 is exchanged along the route of the dotted arrow 11a. The data is transferred from the network 11 to the information relay apparatus 1-0, and transferred from the information relay apparatus 1-0 to the center apparatus 4 via the LAN 3 through the route indicated by the dotted arrow 11b. As described above, the latest information is also written in the hard disks 2-0 and 2-1. If the terminal device 12-1 is the terminal device in charge of the information relay device 1-0, the information from the center device 4 to the terminal device 12-1 is the route in the direction opposite to the dotted arrows 11b and 11a. 12-1.
[0035]
Further, when the information relay device 1-1 as the slave device receives the emergency call information from the terminal device 12-n, for example, via the exchange network 11 along the route of the dotted arrow 11c, the received information is written to the hard disk 2-1. The received information is also written to the hard disk 2-0 on the main system side via the LAN 3 as shown by a dotted arrow 11d, and a transfer request is made to the information relay apparatus 1-0 as the main system apparatus. Thereby, the information relay apparatus 1-0 transfers to the center apparatus 4 via the LAN 3 along the route of the dotted arrow 11e. Control information from the center device 4 to the terminal device 12-n via the information relay device 1-1 as the slave device is transferred to the information relay device 1-0 as the master device as a slave device. If the information relay device 1-1 is determined to be the responsible terminal device, the information relay device 1-1 makes an information transfer request to transfer the information via the reverse route to the emergency call information described above.
[0036]
FIG. 3 is a flowchart at the time of receiving the emergency call information according to the embodiment of the present invention. Upon receiving the emergency call information from the terminal device (A1), the main unit performs internal processing (A2), and The reception notification information is stored as the latest information in the hard disk HDD (A3). Then, the reception notification information is also stored in the opposite device, that is, the hard disk HDD of the slave device (A4). Then, after performing internal processing (A5), transmission information to the center device is created (A6), and transmitted via a communication path with the center device via the LAN (A7).
[0037]
When the slave device receives the emergency notification information from the terminal device (A11), the slave device performs internal processing (A12), stores the reception notification information as the latest information in the hard disk HDD of its own device (A13), and The device, that is, the hard disk HDD of the master device also stores the reception notification information via the communication path between the slave device and the master device (A15), and after the internal processing (A16), sends an information transmission request. This is performed for the main system (A16).
[0038]
In response to an information transmission request from the slave device, the master device reads the latest information from the hard disk HDD of its own device, creates transmission information to the center device (A6), and transmits it through the communication path with the center device. (A7). The main system apparatus can also transmit information to the center apparatus by detecting that the latest information is stored in the hard disk HDD of its own apparatus.
[0039]
FIG. 4 is a flowchart when receiving an operation instruction from the center apparatus according to the embodiment of the present invention. When the main apparatus receives operation instruction information for the terminal apparatus from the center apparatus (B1), this terminal apparatus is in charge. The information relay device to be determined determines whether it is a master device or a slave device (B2). When the responsible information relay device is a main device, as shown as internal processing (B3) of the main information relay device, line connection processing to the designated terminal device (B4), and operation instruction information transmission (B5), The information relay device automatically issues a call to the terminal device via the exchange network, and transmits operation instruction information to the terminal device.
[0040]
When the information relay device in charge of the terminal device is a slave device, the master device transfers operation instruction information to the slave device, internal processing of the slave information relay device (B6), and connection to the designated terminal device. As shown as processing (B7) and operation instruction information transmission (B8), the information relay device as the slave device automatically calls the terminal device via the exchange network, and transmits the operation instruction information to the terminal device.
[0041]
FIG. 5 is a flowchart at the time of abnormality detection of the main system according to the embodiment of the present invention, and it is determined whether or not the time-out of the periodic reception waiting timer of the primary path (LAN 3 in FIG. 1 or FIG. 2) is reached. C1). A communication path is formed from the center apparatus to the main apparatus via the LAN, and periodic communication is performed. If a failure occurs in this path or the center apparatus, a timeout occurs. In that case, the state of the line with the center device is rechecked (C2), it is determined whether it is normal (C3), and if it is normal, it is determined that the LAN on the slave device side is abnormal, and the master device The mode is maintained and the processing is continued (C7).
[0042]
If it is determined that there is an abnormality by rechecking the line status, the status of the secondary path is checked (C4) to determine whether it is normal (C5). In other words, communication is performed to periodically monitor the status via a communication line directly connected between the information relay device as the master device and the information relay device as the slave device, and received from the other device. When it is not possible, it is determined that the partner device is abnormal. If the secondary path is normal, the slave device is operating normally. If the slave device is switched to the master device, the center device Since there is a possibility of normal communication with the system, the current main system is restarted (C8). If it is determined that the secondary device side is abnormal due to the secondary path, the mode is changed to the mode of the single master device (C6), and the processing is continued.
[0043]
FIG. 6 is a flowchart when an abnormality is detected in the slave device according to the embodiment of the present invention. In the slave device as well, as in the master device, whether or not the time-out of the periodical reception information waiting timer for the primary path has occurred. Is determined (D1). That is, since a communication path is formed with the main system device via the LAN, if a regular communication is performed and an abnormality occurs in the main system device or the primary path, a timeout occurs. Based on this timeout, the state of the secondary path is checked (D2).
[0044]
It is determined whether or not the check result of the secondary path state is normal (D3), and when it is abnormal, that is, when the periodic information from the partner device cannot be received, it is determined that the partner device is abnormal. In this case, it is determined that an abnormality has occurred in the master device, and the slave device immediately shifts to the mode of the single master device (D7).
[0045]
If the state of the secondary path is normal, the communication state between the main system device and the center device notified via the secondary path is referred to (D4), and it is determined whether or not it is normal (D5). If it is normal, it is determined that only the master device can operate, and the slave device is restarted (D6). In the case of an abnormality, it is an abnormality on the master device side, and it is determined that there is a possibility that a communication path can be formed with the center device if the own device as a slave device is changed to the master device. And transition to the main system (D8). At this time, the master device side is in a restart state (see step (C8) in FIG. 5), and the master device is switched to the slave device mode.
[0046]
FIG. 7 is a flowchart of switching between the main system and the slave system by detecting an abnormality according to the embodiment of the present invention. When the response from the center apparatus cannot be obtained in the main apparatus, the communication path is disconnected from the center apparatus. If the communication driver to the center device outputs abnormality information, it is determined whether or not an abnormality has been detected (E1). If an abnormality is detected, retry transmission is performed (E2). That is, a preset number of retries and a message are transmitted to the center apparatus, and the presence or absence of a response is determined.
[0047]
Then, it is determined whether or not the number of retries has been exceeded (E3). If the number of retries is exceeded, if the slave device is normal as a result of monitoring by the secondary path as described above, the slave device can establish a communication path. The master device requests the slave device to transition to the master device mode, the master device disconnects the communication path with the center device (E4), and transitions to the slave device. (E5).
[0048]
The slave device transitions to the master device according to the transition request from the master device (E11). Then, a message is transmitted to the center device and a response is waited (E12). Then, a response waiting timer is started (E13), and it is determined whether or not a timeout has occurred (E13 ′). In this case, if a response from the center device is received before the timeout, the operation as the main device is continued. When a timeout occurs, the secondary path is used to determine whether or not the slave device is normal as in step (E4) described above, and if it is normal, a master device mode transition request is sent. (E14), the own device is transitioned to the slave device (E15).
[0049]
Therefore, there may be a state where the transition to the master device and the slave device is repeated, but when the communication path with the center device can be formed, the master device at that time causes the terminal device to The emergency call information can be transferred to the center device.
[0050]
As described above, the abnormality determination between the information relay apparatuses 1-0 and 1-1 in the duplex configuration is performed based on the normality / abnormality of the primary path state and the normality / abnormality of the secondary path state. If both the control units 6-0 and 6-1 (see FIG. 1) are normal, both information relay apparatuses 1-0 and 1-1 are normal. If the primary path state is normal and only the secondary path state is abnormal, it is determined that the communication line 5 constituting the secondary path is abnormal. If the secondary path status is normal and the primary path status is abnormal, it is determined that the LAN 3 is abnormal. If both the primary path and secondary path status are abnormal, the other device side determines that the status is abnormal. can do. As a result, by performing mode switching between the master device and the slave device, it is possible to minimize the influence of the occurrence of an abnormality.
[0051]
【The invention's effect】
As described above, the present invention receives the emergency call information from the terminal device by the information relay devices 1-0 and 1-1 having the duplex configuration, and relays information to the center device 4 in the main device mode. When the device receives it, the reception notification information is transferred through the communication path with the center device 4, and when the information relay device in the slave device mode receives it, the communication path with the master device is set. The reception notification information is transferred to the main unit via the main unit and transferred from the main unit to the center unit 4. Since the center unit 4 only needs to manage a single line, the processing load is reduced. Since both the information relay apparatuses 1-0 and 1-1 having the duplex configuration can receive the emergency call information from the terminal apparatus, there is an advantage that the accommodated line can be effectively used.
[0052]
The switching control units 6-0 and 6-1 monitor the communication path and the communication line 5 formed by the LAN 3, and the master apparatus and the slave apparatus are directly connected to each other by the communication line 5 (secondary path). Since it is possible to monitor whether or not each other is normal, it is possible to reliably determine whether or not to perform mode switching between the master device and the slave device when an abnormality occurs. Therefore, there is an advantage that the reliability can be improved by applying to the center system of the emergency call system.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram of a main part of an embodiment of the present invention.
FIG. 2 is an explanatory diagram of an embodiment of the present invention.
FIG. 3 is a flowchart at the time of receiving an emergency call according to the embodiment of the present invention.
FIG. 4 is a flowchart when receiving an operation instruction from the center device according to the embodiment of this invention;
FIG. 5 is a flowchart when abnormality is detected in the main system apparatus according to the embodiment of this invention.
FIG. 6 is a flowchart when an abnormality is detected in the slave device according to the embodiment of this invention.
FIG. 7 is a flowchart of switching between the main system and the slave system by detecting an abnormality according to the embodiment of the present invention.
FIG. 8 is a schematic explanatory diagram of an emergency call system.
FIG. 9 is an explanatory diagram of a conventional duplex information relay apparatus.
FIG. 10 is an explanatory diagram of a duplex information relay apparatus of a conventional example.
FIG. 11 is an explanatory diagram of a LAN connection configuration.
[Explanation of symbols]
1-0, 1-1 Information relay device
2-0, 2-1 Hard disk (HDD)
3 LAN (Local Area Network)
4 Center equipment
5 communication lines
6-0, 6-1 switching controller

Claims (5)

In a redundant information relay device for connecting to a center device via a network with a plurality of terminal devices,
A redundant information relay device, one of which is a master device and the other is a slave device, is connected to the center device via a local area network, and directly between the master device and the slave device. Connected to each other with a communication line to monitor the mutual status,
The main system apparatus forms a communication path by the local area network between the main system apparatus and the center apparatus, transfers emergency call information received from the terminal apparatus to the center apparatus, and A communication path is formed between the slave device and the local area network, the emergency notification information received from the terminal device is transferred to the slave device, and between the master device and the center device. An abnormal location based on the state of the communication path, the state of the communication path between the master device and the slave device, and the state of the master device and the slave device via the communication line. A duplex information relay apparatus comprising a switching control unit that estimates mode and controls mode switching between a master apparatus and a slave apparatus. Comprising a memory shared by the main system unit and said slave device, said main system unit and said slave device receives the emergency notification information from the terminal apparatus via the network, the main system unit, the shared The reception device is configured to write reception notification information in a memory and transfer the information to the center device via a communication path through the local area network. The slave device writes the reception notification information to the shared memory and the local device 2. The duplexed information relay apparatus according to claim 1 , further comprising a configuration in which a transfer request to the center apparatus is made to the main system apparatus via a communication path through an area network . One of the duplex information relay devices connected to a plurality of terminal devices via a network and connected to a center device via a local area network is a master device and the other is a slave device.
The primary device that has received the emergency call information from the terminal device transfers the emergency call information to the center device via a communication path by the local area network ,
The slave device that has received the emergency call information from the terminal device makes a transfer request to the center device by transferring to the master device via a communication path by the local area network,
And the state of the communication path by the local area network between the local area network by said communication path and said main system device and the slave device between the main system unit and the center apparatus When it is determined that there is an abnormality on the master device side based on the monitoring and monitoring of the state by the communication line directly connecting the master device and the slave device, the master device A switching control method comprising: switching the slave device to the mode of the slave device and switching the slave device to the mode of the master device.   When one of the duplexed information relay devices determines that the other is not in a normal state via the communication path and the communication line, it is in the master system, and when it can be determined that it is already operating in a normal state, 4. The switching control method according to claim 3, further comprising a step of switching modes in each system device at the time of startup.   The master device receives information from the center device to the terminal device, determines whether it is a terminal device in charge of the master device or a terminal in charge of a slave device, and the terminal device in charge of the master device In this case, information is transmitted from the master device to the terminal device via the network, and in the case of the terminal device in charge of the slave device, a request to transfer information is sent from the master device to the slave device. 4. The switching control method according to claim 3, further comprising a step of transmitting information from the slave device to the terminal device via the network.

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