JP2003140986A - Remote monitoring system and communication control method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a remote monitoring system usable by easily selecting a plurality of monitoring center systems without requiring a complicated control, and a communication control method for the system. SOLUTION: The monitoring center systems 1A and 1B use a common host name, and are operated selectively between the systems. When a selection is performed between the monitoring center systems, a name table 51 using the IP address of the monitoring center system on a newly operated side is updated by an unshown name table update means. A monitoring device 2 for monitoring a plurality of monitored devices 3 requests for a DNS server 5 by using a specific host name to perform a name settling and communicate with the monitoring center system 1A or 1B by using an acquired IP address. If a communication by the IP address fails specified number of times the monitoring device 2 acquires the latest address by performing a name settling procedure again.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a remote monitoring system for monitoring the status of devices and the like using a communication network. In particular, it relates to a remote monitoring system that switches and uses a plurality of monitoring center systems.

[0002]

2. Description of the Related Art To improve system reliability and availability in a remote monitoring system comprising a plurality of monitoring devices for monitoring various monitored devices and a monitoring center system for controlling the monitoring devices via their communication networks. In addition, the monitoring center system is being multiplexed. In such a multiplex system, only one of a plurality of monitoring center systems is operating at a time, and the other monitoring center systems are suspended or waiting. When the monitoring center system in operation stops due to an accidental stop or a planned stop, another monitoring center system should be newly started and this newly started monitoring center system should take over the processing. Becomes

[0003]

The above-mentioned prior art has the following problems. In other words, the monitoring device performs monitoring under the control of the monitoring center system, and when a failure of the monitored device is detected, the monitoring device notifies the monitoring center system of the failure. Alternatively, it is necessary to manage the name, grasp which of the monitoring center systems is currently operating, and communicate with the operating monitoring center system. However, requesting the monitoring device side to manage information regarding a plurality of monitoring center systems or requesting a judgment when switching the monitoring center systems only causes the monitoring device to become complicated and costly. Not only that, but also operating costs such as information setting and maintenance of many monitoring devices will increase.

The present invention has been made in consideration of the above circumstances, and does not require complicated control and can easily switch and use a plurality of monitoring center systems, and a communication control method thereof. The purpose is to provide.

[0005]

SUMMARY OF THE INVENTION In order to solve the above problems, the present invention provides a plurality of center systems that operate using a common host name and a unique communication address for each, It has a plurality of switchable center systems and a name table that holds the relationship between host names and communication addresses. By referring to the name table in response to an inquiry by the host name of the center system, the host When switching is performed between the name resolution server that responds with the communication address corresponding to the name and the plurality of center systems, the name table is created using the communication address of the center system that becomes a new operating system by this switching. Name table updating means for updating the corresponding host name entry of And gist remote processing system according to claim.

Further, the remote monitoring system according to the present invention is
It is a multiple monitoring center system that operates using a common host name and unique communication address, and maintains the relationship between host names and communication addresses with multiple monitoring center systems that can switch operating systems to each other. A name resolution server that responds to an inquiry by the host name of the monitoring center system by referring to the name table and responds with a communication address corresponding to the host name; and the plurality of monitoring centers. When switching between systems, the name table updating means for updating the entry of the corresponding host name in the name table by using the communication address of the monitoring center system which becomes a new operating system by this switching. Is characterized by.

Further, the remote monitoring system according to the present invention is
An inquiry is made to the name resolution server using a predetermined host name, the communication address is acquired as a response to the inquiry, and communication with the acquired communication address is performed by the monitoring center system. It is characterized by comprising a monitoring device for transmitting data on the state of the monitored device.

Further, in the remote monitoring system of the present invention, the monitoring device sets the predetermined host name when transmission of data using the communication address acquired from the name resolution server fails a predetermined number of times. It is characterized in that the latest communication address recorded in the name table is acquired again by making an inquiry to the name resolution server again by using the name table.

Further, the present invention is a plurality of center systems that operate using a common host name and a unique communication address, respectively, and a plurality of center systems that can switch operating systems to each other, and a host name and a host name. It has a name table that holds the relationship with communication addresses,
A communication control method in a remote processing system comprising a name resolution server that responds to a query by a host name of the center system by referring to the name table and responds with a communication address corresponding to the host name, When switching is performed between a plurality of center systems, a name table updating process of updating the entry of the corresponding host name in the name table by using the communication address of the center system which becomes a new operating system by this switching is included. It is characterized by

Further, the present invention is a plurality of monitoring center systems that operate using a common host name and a unique communication address, respectively, and a plurality of monitoring center systems capable of switching operating systems to each other and a host. A name table that holds the relationship between names and communication addresses is provided, and in response to an inquiry by the host name of the monitoring center system, a name that responds to the communication address corresponding to the host name by referring to the name table. A communication control method in a remote monitoring system including a resolution server, wherein when switching is performed between the plurality of monitoring center systems, the communication address of the monitoring center system that becomes a new operating system by this switching is set. Update the entry for the corresponding host name in the name table using And characterized in that it has a name table update process.

Further, the present invention is a plurality of monitoring center systems that operate using a common host name and a unique communication address, respectively, and a plurality of monitoring center systems that can switch operating systems to each other and a host. A name table that holds the relationship between names and communication addresses is provided, and in response to an inquiry by the host name of the monitoring center system, a name that responds to the communication address corresponding to the host name by referring to the name table. A communication control method in a monitoring device for a remote monitoring system including a resolution server, wherein a query is made to the name resolution server using a predetermined host name, and the communication address is sent as a response to the query. Name resolution process to be acquired and communication using the communication address acquired in this name resolution process Therefore, the monitoring device fails to transmit the data of the status of the monitored device under the monitoring center system to the monitoring center system and the data using the communication address acquired in the name resolution process a predetermined number of times. In this case, an inquiry is again made to the name resolution server using the host name, the communication address is acquired as a response to the inquiry, and the newly acquired communication address is transmitted for subsequent data. And a name resolving process used for.

Further, the present invention is a plurality of center systems that operate using a common host name and a unique communication address, respectively, and a plurality of center systems that can switch operating systems to each other, and a host name and a host name. It has a name table that holds the relationship with communication addresses,
A computer program for communication control in a remote processing system including a name resolution server that responds to a query by the host name of the center system by referring to the name table and responds with a communication address corresponding to the host name. Therefore, when switching is performed between the plurality of center systems, a name table that updates the entry of the corresponding host name in the name table by using the communication address of the center system that becomes a new operating system by this switching. The update processing is executed by a computer.

Further, the present invention is a plurality of monitoring center systems that operate using a common host name and a unique communication address, respectively, and a plurality of monitoring center systems that can switch operating systems to each other and a host. A name table that holds the relationship between names and communication addresses is provided, and in response to an inquiry by the host name of the monitoring center system, a name that responds to the communication address corresponding to the host name by referring to the name table. A computer program for controlling a monitoring device for a remote monitoring system including a resolution server, wherein a query is made to the name resolution server using a predetermined host name, and the communication address is sent as a response to the query. Name resolution process to obtain the, and the communication address obtained in this name resolution process Through the communication used, the monitoring device has a predetermined transmission process of transmitting data of the state of the monitored device under the monitoring center system and transmission of data using the communication address acquired in the name resolution process. When the number of times of failure has failed, the name resolution server is again inquired using the host name, the communication address is acquired as a response to this inquiry, and the newly acquired communication address The computer executes the name resolving process used for transmitting data.

[0014]

BEST MODE FOR CARRYING OUT THE INVENTION An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing a main configuration of a remote monitoring system according to the same embodiment.
In FIG. 1, reference numerals 1A and 1B are a monitoring center system and 5 is a DNS (domain name system, Doma).
in Name System) server, 6 is an access server, 2 is a monitoring device, and 3 is a device to be monitored. The monitoring center systems 1A and 1B are communication units 11A and 11B, respectively.
LAN (local area network,
Communication via a Local Area Network (101) can be performed. The monitoring device 2 also includes a communication unit 21, and a WAN (Wide Area Network).
k) By accessing the access server 6 via 102, it is possible to communicate with the monitoring center systems 1A, 1B and the DNS server 5 (name resolution server) connected to the LAN 101.

The DNS server 5 includes a host name and an IP (Internet Protocol, Internet Protocol) of the host.
l) A name table 51 for holding a relationship with an address (communication address) and a control unit 52 are provided. When a query for name resolution is received from the outside, the control unit 52
By referring to the name table 51, the IP address of the host with that name is returned to the inquiry source.

The monitoring center systems 1A and 1B have the same function, and normally, only one of them is operating and the other is waiting at one point. Then, when the operating system is stopped due to some reason such as an accident, the system is switched to the standby system and the process is taken over. In the example shown in FIG. 1, the monitoring center system 1A is assigned the IP address “123.123.10.11”, and the monitoring center system 1B is assigned the IP address “123.123.10.12”. ing. Further, the monitoring center systems 1A and 1B use the same host name "abc". The above-mentioned switching and takeover procedures will be described later.

The monitoring device 2 monitors the states of the plurality of monitored devices 3, and when a failure of the monitored device 3 is detected, the monitoring device 2 notifies the monitoring center system 1A or 1B by communication. . Further, the monitoring center system 1A or 1B also sends data for monitoring control to the monitoring device 2. Here, the monitored device is, for example, a power supply device, a communication device, a computer, various industrial control devices, or the like.

Next, with reference to FIGS. 2 and 3, the procedure of communication between the monitoring device 2 and the monitoring center systems 1A and 1B in this remote monitoring system will be described.

FIG. 2 is a ladder diagram showing a communication procedure at a normal time. In the situation shown in FIG. 2, the monitoring center system 1A is operating and the monitoring center system 1B is in operation.
The side is waiting. Further, in the name table 51 of the DNS server 5, the IP address “123.123.10.11” of the monitoring center system 1A is registered in advance as the IP address corresponding to the host name “abc”.

In FIG. 2, when communication data is sent from the monitoring device 2 to the monitoring center system (the operating side of either 1A or 1B), the monitoring device 2 first uses the DNS.
An inquiry is made to the server 5 for resolution of the host name "abc" (step S1). Then, the DNS server 5 refers to the name table to retrieve the IP address "12".
"3.13.10.11" is returned as a response (step S2). The monitoring device 2 sends the communication data to the monitoring center system 1A by using the IP passed in step S2 (step S3). After that, the data necessary for monitoring is exchanged between the monitoring device 2 and the monitoring center system (steps S4, S).
5, S6). The monitoring device 2 repeatedly uses the IP address acquired in step S2. That is, the monitoring device 2 uses the IP address acquired in step S2 in both the data transmission in step S3 and the data transmission in step S5. Therefore, in principle, the inquiry to the DNS server 5 only needs to be made once at the beginning.

FIG. 3 is a ladder diagram showing a communication procedure when switching the monitoring center system. In the situation shown in FIG. 3, the monitoring center system 1A side is initially in operation, and the monitoring center system 1B side is on standby.
Further, the monitoring device 2 has already received the IP address “123.123.1” of the monitoring center system 1A from the DNS server 5.
0.11 ”is acquired and data is transmitted and received to and from the monitoring center system 1A (steps S11 and S1).
2).

Here, when the monitoring center system 1A is stopped, as shown in FIG.
Switching to B is performed, and the monitoring center system 1B takes over the processing. After this switching, the monitoring center system 1A does not process the communication data from the monitoring device 2. The monitoring center system 1B performs an initial process after the process is taken over, and notifies the DNS server 5 that its own system is in an operating state (step S13).
a). According to this notification, the DNS server 5 determines that the IP address corresponding to the host name "abc" is "123.123.10.1" of the monitoring center system 1B.
The entry of the name table is updated so that it becomes 2 ”(step S13b, name table updating means, name table updating process).

After the above switching, the monitoring device 2 uses the conventional I
Even if an attempt is made to send data to the monitoring center system using the P address, the monitoring center system 1A does not receive the data because it is already stopped as described above,
This data transmission fails (step S14). Due to the transmission failure in step S14, the monitoring device 2 attempts to retransmit the data a predetermined number of times, but all of them also fail (steps S15, S16, S17, S18).

Failure to transmit data a predetermined number of times (step S
14 to S18), the monitoring device 2 again sets the DNS server 5
An inquiry is made to resolve the host name "abc" (step S19). Since the name table is updated in step S13b as described above, the DNS server 5 this time returns the IP address "123.123.10.12" of the monitoring center system 1B as a response, and the monitoring device 2 A new IP address is acquired (step S20, name resolving process). The monitoring device 2 sends the communication data to the monitoring center system 1B by using the IP passed in step S20 (step S21). Even after that, the data necessary for monitoring is exchanged between the monitoring device 2 and the monitoring center system (step S22, ...).

That is, if the data transmission using the IP address acquired by the DNS server 5 fails a predetermined number of times, the monitoring device 2 makes an inquiry to the DNS server 5 again using a predetermined host name. Thus, the latest IP address recorded in the name table is acquired again.
The “predetermined number of times” is set to about 5 times, for example.

As described above, when the monitoring center system is switched, the entry of the DNS server is updated so that the monitoring device communicates with the monitoring center system side using the IP address received from the DNS server. It is possible to simplify because the monitoring device does not need to have a complicated decision logic. Further, as compared to the case where the monitoring device side determines which monitoring center system is currently in operation, it is possible to switch the communication partners for all the monitoring devices all at once in a short time.

The above-mentioned monitoring device, monitoring center system,
The DNS server is realized by using a computer. The above-described communication control process (including updating of the DNS server name table accompanying system switching) is stored in a computer-readable recording medium in the form of a program, and the computer stores the program. The above process is performed by reading and executing. Here, the computer-readable recording medium means a floppy (registered trademark) disk, a magneto-optical disk, a CD-ROM, a DVD-ROM,
Refers to magnetic hard disks, semiconductor memories, etc.

Although the embodiments of the present invention have been described in detail above with reference to the drawings, the specific configuration is not limited to these embodiments, and a design etc. within the scope not departing from the gist of the present invention are also possible. included. For example, in the configuration shown in FIG. 1, the monitoring center systems 1A and 1B and the DNS server 5
Is connected to the LAN 101, and the W
The LAN via the AN 102 and the access server 5
Although it is possible to connect to the network 101, the specific network configuration is not limited to such a form, and packets are exchanged among the monitoring center systems 1A and 1B, the DNS server 5, and the monitoring device 2. May be reachable, other network configurations may be used. Further, for example, in FIG. 3, DNS is used in the initial processing 13a of the monitoring center system 1B that has taken over the processing by switching.
Although the server 5 is notified and the name table is updated based on the notification, the name table of the DNS server is rewritten by another means or route when the switching between the monitoring center systems occurs. Is also good.

[0029]

As described above, according to the present invention, a plurality of center systems use a common host name,
When the center system is switched, the entry of the side DNS server related to the host name is updated. Therefore, the monitoring device side only needs to perform name resolution by the DNS server and communicate with the operating center system. Therefore, it is not necessary to implement complicated logic for selecting the center system on the monitoring device side. If the monitoring device attempts to transmit data a predetermined number of times using the communication address already acquired by name resolution and they fail,
Since the DNS server is again inquired, name resolution can be performed using the name table in the latest state at that time. Therefore, by simply updating the content of the DNS server on the center side, it becomes possible to quickly and uniformly switch all the monitoring devices.

[Brief description of drawings]

FIG. 1 is a block diagram showing a configuration of a remote monitoring system according to an embodiment of the present invention.

FIG. 2 is a ladder diagram showing a normal communication procedure between the monitoring device and the monitoring center system according to the same embodiment.

FIG. 3 is a ladder diagram showing a communication procedure when switching the monitoring center system according to the embodiment.

[Explanation of symbols]

1A, 1B monitoring center system 2 monitoring devices 3 Monitored device 5 DNS server 6 Access server 11A, 11B communication unit 21 Communications Department 51 name table 52 control unit 101 LAN 102 WAN

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Claims (9)

[Claims] 1. A plurality of center systems that operate by using a common host name and a unique communication address, and a plurality of center systems that can switch operating systems mutually, and a host name and a communication address. A name resolution server that holds a relationship, and a name resolution server that responds to a query by the host name of the center system to respond to a communication address corresponding to the host name by referring to the name table; When switching between center systems, the name table updating means for updating the entry of the corresponding host name in the name table using the communication address of the center system which becomes a new operating system by this switching. Remote processing system characterized by. 2. A plurality of monitoring center systems that operate by using a common host name and a unique communication address, and a plurality of monitoring center systems that can switch operating systems mutually, and a host name and communication address. And a name resolution server that holds a relationship with the host name of the monitoring center system, and a name resolution server that responds to the communication address corresponding to the host name by referring to the name table, When switching is performed between the plurality of monitoring center systems, the name table update for updating the entry of the corresponding host name in the name table using the communication address of the monitoring center system that becomes a new operating system by this switching And a remote monitoring system. 3. The monitoring center system makes an inquiry to the name resolution server using a predetermined host name, acquires the communication address as a response to the inquiry, and communicates using the acquired communication address. The remote monitoring system according to claim 2, further comprising a monitoring device that transmits data of a state of a monitored device under the control of the remote monitoring device. 4. The monitoring device, when the transmission of data using the communication address acquired from the name resolution server fails a predetermined number of times, uses the predetermined host name to notify the name resolution server again. The remote monitoring system according to claim 3, wherein the latest communication address recorded in the name table is acquired again by making an inquiry. 5. A plurality of center systems that operate using a common host name and a unique communication address, respectively, and a plurality of center systems that can mutually switch operating systems, and a host name and a communication address. A remote having a name table that holds relationships and a name resolution server that responds to a query by the host name of the center system and responds with a communication address corresponding to the host name by referring to the name table. A communication control method in a processing system, wherein, when switching is performed between the plurality of center systems, the corresponding host name in the name table is used by using the communication address of the center system that becomes a new operating system by this switching. Having a name table update process to update entries in A communication control method characterized. 6. A plurality of monitoring center systems that operate by using a common host name and a unique communication address, and a plurality of monitoring center systems that can switch operating systems mutually, and a host name and communication address. And a name resolution server that responds to a communication address corresponding to the host name by referring to the name table in response to an inquiry by the host name of the monitoring center system. A communication control method in a remote monitoring system provided, wherein when switching is performed between the plurality of monitoring center systems, the name is obtained by using a communication address of the monitoring center system that becomes a new operating system by this switching. A name table that updates the entry for that host name in the table Communication control method characterized by having a new process. 7. A plurality of monitoring center systems that operate using a common host name and a unique communication address, respectively, and a plurality of monitoring center systems that can switch operating systems mutually, and a host name and communication address. And a name resolution server that responds to a communication address corresponding to the host name by referring to the name table in response to an inquiry by the host name of the monitoring center system. A method of communication control in a monitoring device for a remote monitoring system, comprising: querying the name resolution server using a predetermined host name and acquiring the communication address as a response to the query By the process and communication using the communication address acquired in this name resolution process, When the monitoring device fails to transmit the data of the status of the subordinate monitored device to the monitoring center system and the data transmission using the communication address acquired in the name resolution process a predetermined number of times, , The name is used to send a query to the name resolution server again using the host name, the communication address is acquired as a response to the query, and the newly acquired communication address is used for subsequent data transmission. A communication control method comprising a resolving process. 8. A plurality of center systems that operate by using a common host name and a unique communication address, and a plurality of center systems that can switch operating systems mutually, and a host name and a communication address. A remote having a name table that holds relationships and a name resolution server that responds to a query by the host name of the center system and responds with a communication address corresponding to the host name by referring to the name table. A computer program for communication control in a processing system, wherein, when switching is performed between the plurality of center systems, the name table is created by using the communication address of the center system that becomes a new operating system by this switching. Update the corresponding host name entry in A computer program to be executed table update processing to the computer. 9. A plurality of monitoring center systems that operate by using a common host name and a unique communication address, and a plurality of monitoring center systems that can switch operating systems mutually, and a host name and communication address And a name resolution server that responds to a communication address corresponding to the host name by referring to the name table in response to an inquiry by the host name of the monitoring center system. A computer program for controlling a monitoring device for a remote monitoring system provided, which is a name for making an inquiry to the name resolution server using a predetermined host name and acquiring the communication address in response to the inquiry. In resolution processing and communication using the communication address acquired in this name resolution processing Therefore, the monitoring device fails to transmit the data of the state of the monitored device under its control to the monitoring center system and the data transmission using the communication address acquired in the name resolution process a predetermined number of times. In this case, an inquiry is again made to the name resolution server using the host name, the communication address is acquired as a response to the inquiry, and the newly acquired communication address is transmitted for subsequent data. A computer program that causes a computer to execute the name resolving process used for.