JP5961507B2 - Automatic operation switching system and method in the event of an earthquake - Google Patents

Description

  The present invention is installed in a remote place where the influence of the disaster does not reach by the disaster recovery system when the job operation management system operating on a specific machine stops unexpectedly when a disaster such as an earthquake occurs Regarding the operation switching system that continues (restarts) the operation based on the operation data backed up on another machine, especially in the situation where the earthquake information by the emergency earthquake warning at the time of the earthquake flows, before the arrival of the earthquake, The present invention relates to an automatic operation switching system and method capable of automatically and quickly stopping a job operation management system in operation and continuing (resuming) operation on another machine.

Conventionally, disaster recovery systems use replication, mirroring systems, etc., and protect (transfer) data in a job operation management system that is in operation by transferring (copying) it to a remote location (remote site) that is not affected by the disaster. When a job operation management system that is in operation stops unexpectedly when it occurs or due to some kind of failure, the user is at a remote site that is not affected by the disaster based on the transferred (copied) data. By performing the operation switching operation, once stopped operation can be continued (resumed).
On the other hand, the disaster recovery system is an excellent system as a system operation continuation system at the time of a disaster. In the method of transferring (copying) data from the operation switching source (main site) to the operation switching destination (remote site), the “asynchronous method” If "" is selected, there is a possibility of data loss depending on the timing when the system stops at the time of a disaster. When a disaster occurs, especially when an earthquake occurs, it is very effective to detect the occurrence of ground vibration and take earthquake countermeasures before the job operation management system stops unexpectedly.
Against this background, Patent Document 1 has developed an earthquake countermeasure technology that combines emergency earthquake information and an operation system to safely stop an existing system before an earthquake occurs when an earthquake occurs.

Published JP 2009-11939

By the way, in the job operation management system, it is possible to process a plurality of jobs at the same time, and a job being executed and a job that has been processed are mixed depending on the timing of system stoppage. For this reason, if the system stops unexpectedly, the job that was being executed may become unclear depending on the type of the job or may remain in execution. However, since the operation switching source (main site) system is stopped, the status of these jobs is not inherited to the operation switching destination (remote site).
When such a situation occurs, the user restarts the operation with job execution suppressed after switching the operation, checks the job status when the system stops at the operation switching source (main site), and switches the operation switching destination. It is necessary to change the status of the job that is not reflected in the (remote site) or re-execute. For this reason, there is a problem that the system stops during job execution, and the more jobs whose status is not inherited at the operation switching destination (remote site), the greater the burden on the user after the operation switching.

  The earthquake countermeasure technique described in Patent Document 1 is a technique aimed at safely stopping an elevator at the nearest floor before reaching an earthquake based on the distance from the epicenter and the seismic intensity of the epicenter.

  The purpose of the present invention is to stop the job being executed in a state that can reduce the burden on the user when resuming operation as much as possible based on the distance from the epicenter, the seismic intensity of the epicenter, and the time to reach the earthquake. It is an object of the present invention to provide an automatic operation switching system and method capable of promptly transferring (copying) untransferred data to a switching destination (remote site) to an operation switching destination.

In order to achieve the above object, an automatic operation switching system according to the present invention includes a receiving means for receiving emergency earthquake information including an epicenter position, a seismic intensity of an epicenter, and an earthquake occurrence time, and an earthquake source based on the received emergency earthquake information. Based on the distance from the location to the installation location of the machine that manages the job operation, the seismic intensity of the epicenter, and the earthquake occurrence time, the estimated arrival time of the earthquake motion to the installation location of the machine and the seismic intensity of the reaching earthquake motion are calculated. From the calculation means and the calculation result of the calculation means, if the seismic intensity of the ground motion that reaches the installation position of the machine exceeds the danger level preset by the user, the machine is moved before reaching the predicted ground motion arrival time. Automatically stop and check the job status when stopped, list data of job status other than normal end or unexecuted (previous end wait) status Export, and a transfer control means for transferring the operational switching destination, the transfer control unit determines whether there is a margin for transferring untransferred data until the calculated ground motion arrival time, if there is a margin performs transfer of untransferred data according to the asynchronous mode with the job status list data, if there is no margin, it characterized that you perform the control for only the transfer of the job status list data.

  The transfer control means implements the transfer of untransferred data by the asynchronous method so that it can be selected according to a user instruction.

The automatic operation switching method according to the present invention transfers automatic operation switching in an automatic operation switching system that transfers data of a job operation management system that is in operation when a disaster such as an earthquake occurs to a remote site at a remote location and continues operation at the remote site. A method,
The automatic operation switching system is
The receiving step for receiving emergency earthquake information including the location of the epicenter, the seismic intensity of the epicenter, and the time of occurrence of the earthquake, and the distance and the epicenter from the location of the epicenter to the location of the machine that manages the job operation based on the received emergency earthquake information Based on the seismic intensity of the ground and the time of occurrence of the earthquake, a calculation step for calculating an estimated arrival time of the ground motion to the installation position of the machine and a seismic intensity of the reaching ground motion, and from the calculation result, the earthquake motion reaching the installation position of the machine is calculated. When the seismic intensity exceeds the danger level set in advance by the user, the machine is automatically stopped before reaching the estimated time of arrival of the seismic motion, and the status of the job is confirmed when the machine is stopped, and the job ends normally or is not executed ( A transfer control step for writing the status of the job other than the (waiting for prior termination) status to the list data and transferring it to the operation switching destination ,
In the transfer control step, it is determined whether or not there is room to transfer untransferred data by the calculated earthquake motion arrival time. If there is room, transfer of untransferred data by the asynchronous method is performed together with the job status list data. done, if there is no margin, automatic operation switching method at the time of the earthquake, characterized that you run the control to perform only the transfer of the job status list data.

Further, the transfer of the untransferred data by the asynchronous method in the transfer control step is configured to be selectable whether or not to transfer according to a user instruction.

According to the automatic operation switching system of the present invention, when an earthquake occurs, it is possible to safely stop the job operation management system before reaching the earthquake.
In addition, even when data is transferred to the operation switching destination by the “asynchronous method” by the disaster recovery system, it is possible to avoid data loss if there is enough time to reach the earthquake.
In addition, it is possible to check information on jobs whose status has not been transferred to the operation switching destination from the job status list information that has been transferred to the operation switching destination. It is possible to perform conventional operations using only the information at the operation switching destination without having to perform operations while checking, and it is possible to cope with cases where it is impossible to check the status of the job at the operation switching source. . As a result, it is possible to reduce the burden on the user after operation switching.

1 is a system configuration diagram showing an embodiment of the present invention. It is a block diagram of the data stored in the danger level setting value management database. It is a flowchart which shows the outline | summary of the job operation management system stop process of a host system. It is a block diagram of the job status list information written out when the job operation management system is stopped.

Hereinafter, an embodiment of an automatic operation switching system to which the present invention is applied will be described.
FIG. 1 is a system configuration diagram showing an example of an embodiment of the present invention. This automatic operation switching system includes an earthquake information receiving terminal 1 that receives emergency earthquake information, and the earthquake information receiving terminal 1 receives earthquake information. The host system 2 that monitors whether or not it has been received, and the base station 4 that transmits emergency earthquake information, the earthquake information receiving terminal 1, and the host system 2 are connected to a network 5 by a public network of priority. .
In addition to the danger level setting value management database 3, the host system 2 includes a database update unit 6 for storing new setting contents in the danger level setting value management database 3 every time the user changes the danger level setting, and earthquake information. A reception monitoring unit 7 that monitors whether the receiving terminal 1 has received the earthquake information, a calculation processing unit 8 that calculates the distance from the epicenter and the arrival time based on the received earthquake information, and the calculation result is a danger level setting value A stop processing unit 9 is provided for stopping the job operation management system when the set value stored in the management database 3 is exceeded.

In the security level setting value management database 3 of the host system 2, information on the security level set by the user in the job operation management system is registered.
The danger level setting information stored in the danger level setting value management database 3 includes, as shown in FIG. 2, the place name 21 where the machine in operation is installed, the seismic intensity 22 of the danger level to stop the operation, and the distance 23 When there is no time before the earthquake arrives, and when data transfer (copy) is performed in an asynchronous manner, the data 24 indicates whether or not to transfer (copy) untransferred data.

Here, for example, when the user sets the danger level setting value, as shown in FIG. 2, the place name 21 is “Yokohama City, Kanagawa ****”, the seismic intensity 22 is “less than 6”, and the distance 23 is “*”. “Within * Km”, “Yes” is registered as the data transfer 24.
The data is updated and registered every time the user changes the setting in the system.

FIG. 3 is a flowchart showing an outline of the job operation management system stop process of the host system 2.
First, the host system 2 determines whether or not the earthquake information receiving terminal 1 has received emergency earthquake information (step 301), and if not, waits in a reception waiting state.
When receiving emergency earthquake information, based on the received information (location of the epicenter, seismic intensity, earthquake occurrence time), the distance from the epicenter to the operation switching source (main site) and the expected time and arrival of the earthquake The predicted seismic intensity of the earthquake to be performed is calculated (step 302).

Next, the calculated predicted seismic intensity is compared with the value read from the danger level setting value management database 3 (step 303), and if it does not exceed the danger level, it waits in a state waiting for receiving the next earthquake information.
If the risk level is exceeded, the job operation management system is stopped (step 304).
Next, the status of the job of the stopped job operation management system is confirmed, and a status list is written for items other than normal completion or non-execution (waiting for prior completion) (step 305). To the remote site (step 306).

Next, it is determined whether the data transfer method used in the disaster recovery system is a synchronous method or an asynchronous method (step 307). If the data transfer method is an asynchronous method, it is determined whether there is room before the earthquake arrival time (step 307). 308).
If there is no allowance as a result of the determination, the setting value indicating whether or not to transfer (copy) untransferred data of the job operation management system is read from the security level setting value management database 3, and whether or not to transfer (copy) is determined. Determination is made (step 309).
When data is not transferred (copied), the processing of this system is terminated.
When data is transferred, untransferred data is transferred (copied) (step 310).

If there is enough time, transfer (copy) of untransferred data is performed without determining whether or not to transfer data (step 309) (step 310).
In this case, if the data has already been transferred to the remote site immediately before the job operation management system is stopped and there is little untransferred data, the transfer process may not be performed.
In addition, when the amount of untransferred data is large and it can be predicted that the data cannot be transferred by the predicted time of arrival of the earthquake, the control mode can be configured such that the transfer is stopped. That is, it may be controlled whether to transfer according to the amount of untransferred data.

  FIG. 4 is a configuration diagram of job status list information to be written when the job operation management system is stopped. The job status list information includes a job name 41, a machine (host name) 42 executing the job, and a job status 43.

DESCRIPTION OF SYMBOLS 1 ... Earthquake information receiving terminal, 2 ... Host system, 3 ... Security level setting value management database, 4 ... Base station, 5 ... Network, 6 ... Database update part, 7 ... Reception monitoring part, 8 ... Calculation processing part, 9 ... Stop processing unit.

Claims (4)

Receiving means for receiving emergency earthquake information including the epicenter location, the seismic intensity of the epicenter, and the earthquake occurrence time;
Based on the received emergency earthquake information, based on the distance from the epicenter location to the installation location of the machine managing the job operation, the seismic intensity of the epicenter, and the earthquake occurrence time, A calculation means for calculating the seismic intensity of the reaching ground motion,
If the seismic intensity of the ground motion that reaches the installation position of the machine exceeds the danger level set in advance by the user, the machine is automatically stopped before reaching the predicted ground motion arrival time. And transfer control means for checking the job status when stopped, writing job statuses other than normal completion or non-execution (waiting for prior completion) status to the list data, and transferring them to the operation switching destination .
The transfer control means determines whether or not there is room to transfer untransferred data by the calculated earthquake motion arrival time, and if there is room, transfers the untransferred data by the asynchronous method together with the job status list data. done, if there is no margin, automatic operation switching system at the time of the earthquake, characterized that you run the control to perform only the transfer of the job status list data.   The automatic operation when an earthquake occurs according to claim 1, wherein transfer of untransferred data by the asynchronous control performed by the transfer control means can be selected according to a user instruction. Switching system.   An automatic operation switching method in an automatic operation switching system that transfers data of a job operation management system that is in operation at the time of a disaster such as an earthquake to a remote site at a remote location and continues operation at the remote site,
  The automatic operation switching system receives emergency earthquake information including the epicenter location, the seismic intensity of the epicenter and the earthquake occurrence time, and
  Based on the emergency earthquake information received by the automatic operation switching system, the installation position of the machine based on the distance from the epicenter position to the installation position of the machine managing the job operation, the seismic intensity of the epicenter, and the earthquake occurrence time A calculation step for calculating the estimated time of arrival of the ground motion and the seismic intensity of the ground motion to reach,
  If the seismic intensity of the seismic motion that reaches the installation position of the machine exceeds the danger level preset by the user based on the calculation result, the automatic operation switching system automatically activates the machine before reaching the predicted seismic motion arrival time. And a transfer control step that checks the job status when it is stopped, writes the status of the job other than normal completion or non-execution (waiting for previous completion) to the list data, and transfers it to the operation switching destination.
  In the transfer control step, it is determined whether or not there is room to transfer untransferred data by the calculated earthquake motion arrival time. If there is room, transfer of untransferred data by the asynchronous method is performed together with the job status list data. If there is no allowance, an automatic operation switching method in the event of an earthquake characterized by executing control that only transfers job status list data.   4. The automatic operation switching method at the time of earthquake occurrence according to claim 3, wherein transfer of untransferred data by the asynchronous method in the transfer control step can be selected according to a user instruction. .

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