KR20160008456A - Abnormality determination apparatus - Google Patents

Abstract

The present invention can check whether a main system and a sub-system operate normally. The abnormality determination apparatus includes: a first memory unit and a second memory unit storing collection server data including management target data received from a multiplexing data collection server; a third memory unit which accumulates and stores the management target data; a first comparison unit which compares the collection server data of the first and second memory units; a first determining unit which determines abnormality according to whether the difference between the compared collection server data exceeds an allowable range; a switch unit which switches the main system and the sub-system when normality is determined; a second comparison unit which compares the management target data of the third memory unit and the management target data received from the main system after the switching operation; and a second determining unit which determines abnormality according to whether the difference between the compared collection server data exceeds an allowable range.

Description

[0001] ABNORMALITY DETERMINATION APPARATUS [0003]

The present invention relates to an abnormality determining apparatus.

In a system that manages processes at factories, etc., process data is collected periodically from devices placed in the plant to manage the process. In such a system, a redundant configuration such as redundancy of a server is employed in preparation for an unexpected failure such as a server down or a disk crash, thereby enhancing the reliability of the system. As a representative redundancy system, there are, for example, a parallel redundancy system and an atmospheric redundancy system, and Patent Document 1 below discloses a process data collection apparatus employing a standby redundancy system.

Japanese Patent Application Laid-Open No. 2011-258125

For example, in a plant facility, an exchange or addition of a device occurs. In the case of a redundant system, before or after the exchange or addition of a device, a device configuration or a connection in a main sequence and subordinate sequence The relationship needs to be consistent. In addition, when the main system is switched to the main system, for example, a failure occurs in the main system, it is necessary that the operation is normally transferred before and after the switching. The above Patent Document 1 does not disclose a method for confirming whether or not the main sequence and the seed sequence normally operate.

An object of the present invention is to provide an abnormality determination apparatus which can confirm whether or not a main sequence and a seed sequence operate normally.

The abnormality determination device according to the present invention stores collection node data including the management object data received from each of the first collection node and the second collection node that are collecting management object data from the management subject device A third storage unit for accumulating and storing the management subject data collected by any one of the first collection node and the second collection node; A first comparing section for comparing the collected node data stored by the first comparing section with the collected node data stored by the second storing section; A first judging section for judging whether or not there is an abnormality based on whether or not the first judging section deviates from a first permissible range; A replacing unit for replacing a main sequence and a seed sequence of a redundancy set in each of the first collecting node and the second collecting node in the first collecting node and the second collecting node; A second comparison section for comparing the management subject data received from the collection node of the main sequence after being replaced by the management subject data stored in the third storage section with the management subject data stored in the third storage section; And a second determination unit that determines whether there is an abnormality depending on whether or not the difference between the object data deviates from a second predetermined allowable range.

Further comprising a transmitting section for transmitting a driving instruction for instructing collection nodes of the longitudinal series to start collection of the management subject data when the redundancy redundancy method is the standby redundancy method, After the collection node of the longitudinal series is activated by the operation instruction, the collection node data received from the first collection node and the second collection node may be used for comparison.

According to the present invention, it is possible to provide an abnormality determination device capable of verifying whether or not the main sequence and the seed sequence operate normally.

1 is a diagram exemplifying a configuration of a redundant system including a data recording server serving as an abnormality determining apparatus in the embodiment.
Fig. 2 is a flowchart for explaining the operation when the data recording server shown in Fig. 1 executes the abnormality determination processing.
Fig. 3 is a flowchart for explaining the operation when the data recording server shown in Fig. 1 executes the abnormality determination processing.

Hereinafter, embodiments according to the present invention will be described with reference to the drawings. It should be noted, however, that the embodiments described below are illustrative only and do not preclude the application of various modifications and techniques not described below. In other words, the present invention can be carried out in various ways without departing from the spirit thereof.

Fig. 1 is a diagram illustrating a schematic configuration of a redundant system including a data recording server serving as an abnormality determination apparatus according to an embodiment of the present invention. 1, the redundancy system includes a data recording server (abnormality determination apparatus) 1 and a redundant data collection server (first collecting node and second collecting node) 2A, 2B do. On the other hand, when there is no particular need to distinguish between the data collection servers 2A and 2B, the data collection server 2 will be described below.

The data collection server 2 receives data (hereinafter referred to as " management data ") to be managed such as process data from a device to be managed (hereinafter referred to as " And transmits it to the data recording server 1. [

As the management target device, for example, a device equipped with a HART (Highway Addressable Remote Transducer) communication function or a device corresponding to a Foundation fieldbus (FF) technology corresponds. Specifically, various sensor devices for detecting flow rate, pressure, temperature, and the like, valve positioners for controlling various valves such as flow control valves and pressure control valves, various actuators for operating pumps and fans, etc., Can be used. The management data includes, for example, measurement data such as flow rate, pressure, and temperature, and control data such as the degree of opening of the valve.

The data collection servers 2A and 2B may adopt a parallel redundancy method or a standby redundancy method as redundancy methods. In the case of adopting the parallel redundancy method, the data collection servers 2A and 2B are set as a collection server of a master series (main sequence) of a parallel redundancy system and the other is set as a collection server of a slave series Respectively.

In the case of adopting the standby redundancy system, one of the data collection servers 2A and 2B is set as a collection server of a moving series (main series) of standby redundancy type and the other is set as a collection server of a standby series Respectively.

As shown in Fig. 1, the data collection server 2 functionally includes, for example, data collection units 21A and 21B and data transmission units 22A and 22B. On the other hand, when it is not necessary to specifically describe the data collecting units 21A and 21B or the data transmitting units 22A and 22B, the data collecting unit 21 or the data transmitting unit 22 will be described below .

The data collecting unit 21 collects the management object data from the management subject device in accordance with the data collection schedule.

The data transmitting section 22 is configured to transmit the operation state information in the magnetic data collecting server 2 and the data collecting section 21 to the data collecting section 21 every cycle in which the collecting data transmission processing for the data recording server 1 is started, And transmits the management target data.

When the redundancy scheme is the standby redundancy scheme, the data transmission unit 22 transmits the operation state information and the management object data to the data recording server 1 and the data collection server 2 on the other side. On the other hand, when the redundancy scheme is a parallel redundancy scheme, only the data recording server 1 transmits the operation state information and the management object data.

The data recording server 1 shown in Fig. 1 is a device for receiving management target data from a data collection server 2 that has been disabled and storing and storing management target data received from a main data collection server. The data recording server 1 has a function of executing an anomaly determination process for determining whether the main sequence and the seed sequence operate normally when an anomaly determination instruction is inputted by an operation instruction of an administrator. The function of executing this abnormality determination processing will be described in detail below.

The data recording server 1 functionally includes a first comparing unit 11, a transmitting unit 12, a first determining unit 13, a replacing unit 14, a second comparing unit 15 And a second judgment section 16, as shown in Fig. The data recording server 1 also includes a first storage unit 17, a second storage unit 18, and a third storage unit 19, which are memory for storing various data.

The first storage unit 17 stores collection server data (collection node data) including management target data received from the data collection server 2A. The second storage unit 18 stores collection server data including management target data received from the data collection server 2B.

Here, the management subject data includes, for example, identification information for specifying the management subject device, measurement values measured by the management subject device, measurement date and time (timestamp) of the measurement values, quality (e.g., good or bad) Is included.

In addition to the management object data, collection server data includes collection definition information that defines, for example, a collection destination, a collection target, a collection period, a collection method (synchronous / asynchronous with the collection schedule) Or the like, and the like.

The third storage unit 19 accumulates and stores the management subject data collected by any one of the data collection servers 2A and 2B. Concretely, when employing the parallel redundancy method as the redundancy method, the management object data collected by the data collection server 2 set in the master series (main series) among the data collection servers 2A and 2B Accumulate and remember. On the other hand, when employing the standby redundancy method, the management object data collected by the data collection server 2 set as the movable system (main system) among the data collection servers 2A and 2B is accumulated and stored. Thus, the management target data stored in the third storage unit 19 can be managed as history data.

The first comparison unit 11 compares the collection server data stored in the first storage unit 17 with the collection server data stored in the second storage unit 18. [

Here, when the standby redundancy system is adopted as the redundancy system, the data collection server of the standby system (longitudinal system) is stopped at the time of operation. Therefore, before the execution of the abnormality determination (before the comparison by the first comparison section 11), the transmission section 12 transmits, to the data collection server of the waiting series, In response to the instruction from the user. Thereby, the data collection server of the waiting series operates and starts collection of the management subject data. In this case, the first comparison unit 11 compares the collection server data received from the data collection servers 2A and 2B after the standby data collection server starts operating.

The content of the comparison process by the first comparison unit 11 will be described in detail below.

(1-1) Case in which the measurement date and time included in the management subject data is compared: The difference rate between the measurement date and time stored in the first storage unit 17 and the measurement date and time stored in the second storage unit 18 And compares the comparison objects.

(1-2) Case where the measurement values included in the management subject data are compared: The difference rate between the measurement value stored in the first storage unit 17 and the measurement value stored in the second storage unit 18 And compares the comparison objects.

(1-3) Case where the quality information included in the management object data is compared: The quality information stored in the first storage unit 17 is compared with the quality information stored in the second storage unit 18, Compare the comparison objects.

(1-4) In the case where the collection definition information included in the collection server data is to be compared: the collection definition information stored in the first storage section 17 and the collection definition information stored in the second storage section 18 By comparison, the comparison objects are compared.

(1-5) When the operation state information included in the collection server data is compared: The operation state information stored in the first storage unit 17 and the operation state information stored in the second storage unit 18 are stored By comparison, the comparison objects are compared.

The first judging unit 13 judges whether or not there is an abnormality based on the comparison result of the first comparing unit 11. This will be described in detail below.

In the case of (1-1) and (1-2), the first judging section 13 judges whether or not the difference rate between the comparison targets calculated by the first comparing section 11 is within a predetermined allowable range Whether or not there is an abnormality depending on whether or not it deviates from the allowable range. In other words, when the difference rate deviates from the allowable range, it is determined that there is an abnormality, and when the difference rate is within the permissible range, the first judgment unit 13 determines that there is no abnormality.

In the case of (1-3) to (1-5), the first judging section 13 judges whether or not there is an abnormality according to whether there is a difference between the comparison targets compared by the first comparing section 11 ≪ / RTI > In other words, when there is a difference between the comparison targets, the first determination unit 13 determines that there is an abnormality. If there is no difference between the comparison targets, the first determination unit 13 determines that there is no abnormality.

The replacement unit 14 replaces the primary sequence and the secondary sequence of the redundancy set for the data collection servers 2A and 2B when it is determined by the first determination unit 13 that there is no abnormality. Illustratively, when a parallel redundancy system is adopted as the redundancy system and the data collection server 2A is set as a master series (main system) and the data collection server 2B is set as a slave system (longitudinal system) If it is determined that there is no abnormality, the replacement unit 14 sets the data collection server 2A as a slave system and sets the data collection server 2B as a master system.

On the other hand, when the standby redundancy system is adopted as the redundancy system and the data collection server 2A is set as a movable system (main system) and the data collection server 2B is set as a standby system (longitudinal system) The replacement unit 14 sets the data collection server 2A to the standby queue and sets the data collection server 2B to the active queue.

The second comparison unit 15 compares the management subject data received from the data collection server of the main sequence after the replacement with the management subject data stored in the third storage unit 19.

Here, the second comparing unit 15 compares the management target data received from the data collection server on the main sequence side before the replacement of the master and slave series among the management target data stored in the third storage unit 19 as a comparison target do. This is because the comparison process by the second comparing unit 15 confirms the consistency between the management subject data received from the main sequence after replacement (that is, the model sequence before replacement) and the management subject data received from the main sequence before replacement The purpose of the

The content of the comparison process performed by the second comparison unit 15 will be described in detail below.

(2-1) When the measurement date and time included in the management subject data are compared: the interval of the measurement date and time based on the measurement date and time that is received from the data collection server of the main series after the replacement, The difference between the intervals of the measurement date and time based on the measurement date and time temporally before and after, which is stored in the storage section 19, is compared.

(2-2) When the measurement values included in the management object data are compared: The difference between the measurement value received from the data collection server of the main sequence after replacement and the measurement value stored in the third storage unit 19 , The comparison object is compared.

(2-3) Case where the quality information included in the management target data is compared: The quality information received from the data collection server of the main sequence after replacement is compared with the quality information stored in the third storage unit 19 , The comparison object is compared.

The second judgment portion 16 judges whether or not there is an abnormality based on the comparison result of the second comparison portion 15. [ This will be described in detail below.

In the case of (2-1) and (2-2), the second judgment portion 16 judges whether the difference rate between the comparison objects calculated by the second comparison portion 15 is within a predetermined allowable range Whether or not there is an abnormality depending on whether or not it deviates from the allowable range. In other words, when the difference rate deviates from the permissible range, the second judgment portion 16 judges that there is an abnormality, and when the difference rate is within the permissible range, it judges that there is no abnormality.

In the case of (2-3), the second judgment unit 16 judges whether or not there is an abnormality depending on whether there is a difference between the comparison objects compared by the second comparison unit 15. In other words, when there is a difference between the comparison targets, the second determination unit 16 determines that there is an abnormality. If there is no difference between the comparison targets, the second determination unit 16 determines that there is no abnormality.

Next, with reference to Fig. 2, the operation at the time of executing the abnormality determination processing of the data recording server 1 when the parallel redundancy system is adopted as the redundancy system will be described. This operation is started when an abnormality determination instruction is inputted by an operation instruction of an administrator.

First, the first comparison unit 11 of the data recording server 1 compares the collection server data stored in the first storage unit 17 with the collection server data stored in the second storage unit 18 (Step S101).

Subsequently, the first judgment unit 13 judges whether or not there is an abnormality based on the result of the comparison in the above-mentioned step S101 (step S102). If the determination is YES (step S102; YES), the manager is notified that there is an error (step S106), and the operation is terminated.

On the other hand, the notification to the administrator may be, for example, a message display to a monitor, an output of a voice message to a speaker, or a message transmission to a portable terminal or the like carried by the manager.

On the other hand, when it is determined in step S102 that there is no error (step S102; NO), the replacing unit 14 replaces the master series or the slave series respectively set in the data collection servers 2A and 2B S103).

Subsequently, the second comparing unit 15 compares the management subject data received from the master series data collection server after the series has been replaced in step S103 with the management subject data stored in the third storage unit 19 (Step S104).

Subsequently, the second judgment unit 16 judges whether or not there is an abnormality according to the result of the comparison in the above-mentioned step S104 (step S105). If the determination is YES (step S105; YES), the manager is notified that there is an error (step S106), and the operation is terminated.

On the other hand, if it is determined in step S105 that there is no abnormality (step S105; NO), the present operation is terminated.

Next, with reference to Fig. 3, the operation at the time of executing the abnormality determination processing of the data recording server when the standby redundancy system is adopted as the redundancy system will be described. This operation is started when an abnormality determination instruction is inputted by an operation instruction of an administrator.

Here, the processing contents of the steps S202 to S207 shown in Fig. 3 are the same as the processing contents of the steps S101 to S106 shown in Fig. However, the master sequence and the slave sequence in steps S101 to S106 are respectively referred to as a movable sequence and a standby sequence in steps S202 to S207. In the following, description of steps S202 to S207 in Fig. 3 is omitted, and only step S201 will be described.

First, the transmission unit 12 of the data recording server 1 transmits a movement instruction for instructing the data collection server of the waiting series to start collecting the management subject data (step S201). Thereby, the data collection server of the waiting sequence starts the collection of the management subject data, and the collected management subject data is transmitted to the data recording server so that any one of the first storage unit 17 or the second storage unit 18 .

As described above, according to the data recording server 1 of the embodiment, by having the first comparison section 11, the collection server data received from the data collection server of the main series and the data collection server It is possible to compare received collection server data with each other, and by having the first determination section 13, it is possible to determine whether the difference between collection server data compared by the first comparison section 11 deviates from a predetermined allowable range, It is possible to determine whether or not there is an abnormality. If the first determination unit 13 determines that there is no abnormality by having the replacement unit 14, the main sequence and the species sequence can be replaced, The management object data received from the data collection server of the main sequence after the replacement can be compared with the management object data received from the data collection server of the main sequence before replacement. To go It is possible to determine whether or not there is an abnormality depending on whether the difference between the management object data compared by the second comparison unit 15 deviates from the predetermined allowable range.

That is, in the abnormality determination process executed by the administrator inputting the abnormality determination instruction, as the determination in the first step, the presence or absence of abnormality can be determined by comparing the collection server data received from the main sequence and the species series, When there is no abnormality in the determination, as the determination in the second step, the main sequence and the seed sequence are exchanged, and the management subject data received from the main sequence after replacement is compared with the management subject data received from the main sequence before replacement, Or not.

Therefore, with the data recording server 1 in the embodiment, it is possible to check whether the main sequence and the seed sequence operate normally, and it is possible to improve the safety of the redundant system.

1: data recording server 2A, 2B: data recording server
11: first comparing unit 12: transmitting unit
13: First judgment part 14: Replacement part
15: second comparing unit 16: second comparing unit
17: first storage unit 18: second storage unit
19: Third storage unit 21A, 21B: Data storage unit
22A and 22B:

Claims (9)

A first storage unit for storing collection node data including the management subject data received from each of the redundant first collecting node and the second collecting node for collecting management object data from the management subject device, And a second storage unit,
A third storage unit for accumulating and storing the management subject data collected by any one of the first collection node and the second collection node,
A first comparison section for comparing the collection node data stored by the first storage section with the collection node data stored by the second storage section;
A first judging unit which judges whether there is an abnormality according to whether or not the difference between the collected node data compared by the first comparing unit deviates from a predetermined first permissible range;
(Main sequence) and subordinate sequence (subordinate sequence) set in the first collecting node and the second collecting node, respectively, when it is determined by the first determining section that there is no abnormality A replacement portion,
Compares the management subject data received from the collection node of the main sequence after being replaced by the replacement unit among the first collection node and the second collection node with the management subject data stored by the third storage unit A second comparator,
And a second judging section judging whether or not there is an abnormality depending on whether or not the difference between the management object data compared by the second comparing section deviates from a preset second permissible range,
And an abnormality determination device. 2. The data processing apparatus according to claim 1, further comprising a transmission section for transmitting, to the collecting node of the longitudinal series, an operation instruction for instructing to start collecting the management subject data when the redundancy redundancy method is the standby redundancy method,
Wherein the first comparing unit compares the collected node data received from the first collecting node and the second collecting node after the collection node of the longitudinal series is activated by the operation instruction. 3. The apparatus according to claim 1 or 2, wherein the management subject data includes a measurement date and time measured by the management subject device,
The first comparison section calculates a difference rate between the measurement date and time stored by the first storage section and the measurement date and time stored by the second storage section,
Wherein the first judging section judges whether there is an abnormality based on whether or not the difference rate calculated by the first comparing section deviates from a predetermined first permissible range. 4. The apparatus according to claim 3, wherein the second comparison unit compares the interval of the measurement date and time temporally before and after received from the collecting node of the main sequence, and the measurement date and time The difference rate is calculated,
Wherein the second judgment section judges whether or not there is an abnormality based on whether or not the difference rate calculated by the second comparison section deviates from a preset second permissible range. 3. The apparatus according to claim 1 or 2, wherein the management subject data includes a measurement value measured by the management subject device,
The first comparison section calculates a difference rate between the measured value stored by the first storage section and the measured value stored by the second storage section,
Wherein the first judging section judges whether there is an abnormality based on whether or not the difference rate calculated by the first comparing section deviates from a predetermined first permissible range. 6. The apparatus according to claim 5, wherein the second comparison unit calculates a difference rate between the measured value received from the collection node of the main sequence and the measured value stored by the third storage unit,
Wherein the second judgment section judges whether or not there is an abnormality based on whether or not the difference rate calculated by the second comparison section deviates from a preset second permissible range. The management apparatus according to claim 1 or 2, wherein the management subject data includes quality information about the quality of the management subject data,
Wherein the first comparison unit compares the quality information stored by the first storage unit with the quality information stored by the second storage unit,
Wherein the first judging section judges whether or not there is an abnormality depending on whether there is a difference between the quality information compared by the first comparing section. 8. The apparatus of claim 7, wherein the second comparison unit compares the quality information received from the collection node of the main sequence with the quality information stored by the third storage unit,
And the second judging section judges whether or not there is an abnormality depending on whether there is a difference between the quality information compared by the second comparing section. 3. The method according to claim 1 or 2, wherein the collection node data includes definition information on collection of the management subject data,
Wherein the first comparison unit compares the definition information stored by the first storage unit with the definition information stored by the second storage unit,
Wherein the first determination unit determines whether or not there is an abnormality depending on whether there is a difference between the definition information compared by the first comparison unit.

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