JP2004228934A - Monitor and control system and monitor and control method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a monitor and control system and a monitor and control method capable of performing a test (diagnosing) immediately after abnormality occurrence under the almost same condition as the one at the time of the occurrence, increasing the possibility of reproducing the abnormality, easily obtaining data for accurately analyzing the cause of the abnormality and obtaining the relatively small capacity of data sufficient for the analysis of a fault cause. <P>SOLUTION: The monitor and control function part 10 of respective cards 1 and 3 diagnoses a pertinent part by a test program immediately after the abnormality of a function part 11 is detected. The fact that it is abnormal as the card is reported in the case of diagnosing it as abnormal just as detected originally and the fact that it is not abnormal is reported in the case of diagnosing it as not abnormal against the original detection to a monitor and control card 2. The monitor and control card 2 defines the card 1 for which diagnostic information indicating that it is abnormal as the card is received as an abnormal card and stops an operation and manages the card 3 for which the diagnostic information indicating that it is not abnormal is received as an operable card. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an apparatus or system having a supervisory control function and a redundant configuration, such as a system for encoding / decoding data in a base station of a mobile phone.
[0002]
[Prior art]
In general, a device or system for encoding / decoding data at a base station of a mobile phone, or another wireless communication device, issues an alarm when an abnormality (failure) occurs in the system. A duplex configuration for switching to a standby system is applied. In addition, there is also a type that collects and stores logs (records) relating to a situation at the time of occurrence of an alarm.
[0003]
As is well known, in a duplex system, important functional units are duplicated, one is operated normally and the other is put on standby, and when an abnormality (failure) occurs, the standby function unit is replaced with the regular functional unit Replace.
[0004]
In a system that enables centralized monitoring of an actual operation network, a control signal for the terminal device is provided in a switching card provided for each terminal device so as to enable automatic switching of the terminal device according to the content of a failure. A control signal monitoring circuit is provided to monitor the current time division multiplexing device group automatically and collectively switch to a spare time division multiplexing device by detecting an abnormality in a monitoring channel, or in a switch card. A system has been proposed that automatically switches a corresponding terminal device to a spare time-division multiplexing device by detecting an abnormality in a provided control signal monitoring circuit (Patent Document 1). In addition, even if a failure occurs in the common control means of the low-speed data satellite communication system, a spare card can replace the card in which the failure occurred by using a spare card without affecting the entire network so that normal functions can be maintained. A common control redundant system switching method has also been proposed (Patent Document 2).
[0005]
[Patent Document 1]
JP-A-4-241530 (Summary, FIG. 1)
[Patent Document 2]
JP-A-7-212371 (abstract, FIG. 1)
[0006]
[Problems to be solved by the invention]
However, even if a card in which an abnormality (failure) has occurred is replaced from an operating device and a reproduction test is performed for investigation, it is actually very difficult or impossible to reproduce. It is not uncommon for them to get lost. In such a case, the cause of the abnormality cannot be accurately grasped. This means that it is not possible to obtain data that is a key to improving the quality of the functional unit (card) relating to the abnormality.
[0007]
What is very important for performing the reproduction test is to perform the test under the same conditions as possible when an abnormality occurs. However, it is very difficult and dangerous to use the functional block (card) in which the abnormality is detected in the currently operating device again for operation. For this reason, the cause may not be specified because the abnormality is not reproduced, or the cause may take a lot of time to specify the cause, and the quality may not be improved.
[0008]
In addition, there is a problem regarding acquisition (data recording) of a log related to an abnormality (failure). That is, a general log acquisition method is to acquire logs for all functions in a card (function block) during operation, and to update the logs as long as no abnormality occurs. When the error occurs, the update of the log is stopped. However, if an area of a size sufficient for storing the log is not allocated, a log that is sufficiently effective for identifying the cause of the failure may not be obtained.
[0009]
Therefore, an object of the present invention is to perform a test (diagnosis) immediately after the occurrence of an abnormality under substantially the same conditions as when an abnormality actually occurs in the system, so that the abnormality is highly likely to be reproduced and the cause of the abnormality is high. A monitoring and control system that can easily obtain data for accurately analyzing data, and can obtain relatively small-capacity data necessary and sufficient to identify the cause of a failure, thereby contributing to the improvement of the quality of devices and systems. And a monitoring control method.
[0010]
[Means for Solving the Problems]
In order to solve the above-described problems, a monitoring control system and a monitoring control method according to the present invention employ the following characteristic configurations.
[0011]
(1) a function unit that has a predetermined function when each is normal and is a management unit as a monitoring target of the abnormality when an abnormality of the unit is generated, and a monitoring control function unit that detects an abnormality of the function unit And a plurality of functional blocks that can be operated alternately with each other,
When the monitoring control function unit of one of the plurality of function blocks detects an abnormality of the corresponding function unit, the other function corresponding to the one function block receives the information related to the detection. A monitoring and control block that operates by replacing the block,
A monitoring and control system comprising:
The monitoring control function unit of each of the plurality of function blocks, when detecting an abnormality of the corresponding function unit, performs a diagnosis by operating a test program for a portion related to the abnormality, and the abnormality is found as the initial detection result. When it is diagnosed that the function block is abnormal, when it is diagnosed that it is not abnormal contrary to the initial detection result, it is configured to notify the monitoring control block to that effect,
The monitoring control block stops the operation as a function block for which the diagnostic information indicating that there is an abnormality is received as the function block, and stops the operation of the function block. Is a monitoring and control system configured to manage as operable functional blocks.
[0012]
(2) The monitoring control system according to the above (1), wherein the monitoring control function units of the plurality of functional blocks are configured to store data relating to the diagnosis.
[0013]
(3) The monitoring control function unit of each of the plurality of function blocks, when detecting an abnormality of the corresponding function unit, inputs / outputs a signal that may cause the abnormality of its own function block to affect others. The monitoring and control system according to the above (1), which is configured to completely stop and then operate the test program.
[0014]
(4) The monitoring control system according to (1), wherein each of the plurality of functional blocks is configured as a card having a circuit block that covers the function.
[0015]
(5) The monitoring control system according to (4), wherein the card includes an encoding function unit that encodes the supplied data and a decoding function unit that decodes the supplied data.
[0016]
(6) The monitoring control system according to (5), wherein the card further includes an interface function unit that inputs and outputs data corresponding to the encoding function unit and the decoding function unit.
[0017]
(7) When an abnormality occurs in the encoding function unit and / or the decoding function unit, the interface function unit generates and transmits and receives a test pattern in accordance with the operation of the test program by the monitoring control function unit. The monitoring and control system according to the above (6), which is configured as described above.
[0018]
(8) The interface function unit holds an expected value when the test pattern is normally processed, and compares the value obtained by actual processing of the test pattern with the expected value. The monitoring and control system according to the above (7), which is configured to perform a diagnosis.
[0019]
(9) The monitoring control block also receives a diagnostic information indicating that the function block is not abnormal and manages the functional block as an operable one when the monitoring control function unit detects an abnormality at first. The monitoring control system according to the above (1), wherein the monitoring control system is configured to store detection data such as detection conditions.
[0020]
(10) When the monitoring control block receives diagnostic information indicating that the function block is not abnormal as the function block and manages the function block as an operable one again, the monitoring control block is in a state where it is actually operating again. When the function block receives diagnostic information indicating that the function unit is abnormal from the monitoring control function unit, the function block is determined to be an abnormal function block and the operation is stopped. The monitoring control system according to 1).
[0021]
(11) a function unit that has a predetermined function when each is normal and is a management unit as a monitoring target of the abnormality when its own abnormality occurs, and a monitoring control function unit that detects an abnormality of the function unit And a plurality of functional blocks that can be operated alternately with each other are installed.
When the monitoring control function unit of one of the plurality of function blocks detects an abnormality of the corresponding function unit, the other function corresponding to the one function block receives the information related to the detection. Install a monitoring and control block that operates by replacing the block,
Configure a monitoring control system including each of the functional blocks and a monitoring control block,
When an abnormality of the corresponding function unit is detected by the monitoring control function unit of each of the plurality of function blocks, a test program is operated for a portion related to the abnormality to perform diagnosis, and an abnormality is detected as an initial detection result. When it is diagnosed that there is an abnormality as the functional block, when it is diagnosed that it is not abnormal contrary to the initial detection result, to notify the monitoring control block to that effect,
By the monitoring control block, the function block in which the diagnostic information indicating that the function block is abnormal is stopped as an abnormal function block and the function block in which the diagnostic information indicating that the function block is not abnormal is received. Is a monitoring control method that manages as operable functional blocks.
[0022]
(12) The monitoring control method according to (11), wherein the data relating to the diagnosis is stored by the monitoring control function unit of each of the plurality of functional blocks.
[0023]
(13) When an abnormality of the corresponding function unit is detected by the monitoring control function unit of each of the plurality of function blocks, the input / output of a signal that may cause the abnormality of the own function block to affect others is performed. The monitoring control method according to the above (11), wherein the test program is completely stopped and then the test program is operated.
[0024]
(14) The monitoring control method according to (11), wherein each of the plurality of functional blocks is configured as a card having a circuit block that covers the function.
[0025]
(15) The monitoring control method according to (14), wherein the card includes an encoding function unit for encoding the supplied data and a decoding function unit for decoding the supplied data.
[0026]
(16) The monitoring control method according to (15), wherein the card further includes an interface function unit that inputs and outputs data corresponding to the encoding function unit and the decoding function unit.
[0027]
(17) When an error occurs in the encoding function unit and / or the decoding function unit, the interface function unit generates and transmits / receives a test pattern in accordance with the operation of the test program by the monitoring control function unit. A monitoring control method according to 16).
[0028]
(18) The interface function unit diagnoses the encoding function unit by comparing an expected value when the test pattern is processed normally and a value obtained by actual processing related to the test pattern. The monitoring control method described in (1).
[0029]
(19) The monitoring control block receives the diagnostic information indicating that the function block is not abnormal as the function block, and manages the function block that is managed as operable when the monitoring control function unit first detects the abnormality. The monitoring control method according to the above (11), wherein detection data such as detection conditions is stored.
[0030]
(20) When the monitoring control block receives the diagnostic information indicating that the function block is not abnormal as the function block, and the function block managed as operable is in a state where it is actually operated again, The monitoring control method according to (11), wherein when the function block receives diagnostic information from the monitoring control function unit indicating that the function unit is abnormal, the function block is determined to be an abnormal function block and operation is stopped. .
[0031]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, preferred embodiments of the monitoring control system and the monitoring control method of the present invention will be described in detail.
[0032]
FIG. 1 is a block diagram for explaining a monitoring control system and a monitoring control method according to the present invention.
[0033]
In FIG. 1, the functional blocks in the system of the present invention are configured as cards 1 and 3 having circuit blocks that fulfill predetermined functions in one embodiment. The cards 1 and 3 perform a predetermined function when they are normal, and determine one or a plurality of functional units 11 and the abnormalities of the functional units 11 that are management units as monitoring targets of the abnormalities with respect to the occurrence of the abnormality. And a monitoring control function unit 10 for detection. Such a card 1 constitutes each functional block, and a plurality of such functions are provided so that their own functions can be backed up by another function corresponding to the own function.
[0034]
When the monitoring control function unit 10 of one of the plurality of function blocks (cards) 1 and 3 detects an abnormality of the corresponding function unit 11, it receives information related to the detection and performs the one function. A monitoring control card 2 is provided as a monitoring control block which has a function of replacing the block 1 with a corresponding other functional block 3 to operate and performs monitoring control of the entire system. The monitoring control system of the present invention is configured to include the monitoring control card 2.
[0035]
Hereinafter, the operation of the embodiment according to the present invention will be described with reference to the flowchart of FIG.
[0036]
First, in step S1, when the monitoring control function unit 10 of the card 1 detects an abnormality of the corresponding function unit 11, the abnormality detection is reported to the monitoring control card 2 (step S2). The monitoring control card 2 stops the operation of the card 1 that has detected the abnormality, and replaces it with the standby card 3 to operate the card 3 (step S3). The card 1 that has detected an abnormality operates a test program for an abnormal point (step S4), and performs diagnosis as to whether the card 1 has really failed or has been erroneously detected and determines the state (step S5). If the test program also determines that the card is abnormal (failure), the card is raised (alarmed) (step S6), that is, the operation is stopped as an abnormal function block (step S7). In step S5, it is determined that there is no abnormality in the diagnosis by the test program, and when it is determined that the previous abnormality detection is erroneous detection, the standby state, that is, such a card is managed as operable (step S8). ).
[0037]
FIG. 3 is a block diagram for explaining the internal configuration of the card 1 in the monitoring control system of FIG.
[0038]
In FIG. 3, a card 1 is applied to encode and decode signals at a base station of a W-CDMA mobile phone. The card 1 includes a monitoring control function unit 10, an encoding function unit 12 that performs an encoding process, a decoding function unit 13 that performs a decoding process, and interface function units 14 and 15.
[0039]
The monitoring control function unit 10 performs monitoring control of each function unit in the card 1. As for the flow of communication signals, a signal from a wireless interface card (not shown) supplied through the transmission path 22 is received by the interface function unit 15, and the signal (data) is received by the decoding function unit 13. The decryption processing is performed, and the data is transmitted from the interface function unit 14 to another card (not shown: a card for interfacing with the exchange) in the system via the transmission path 20.
[0040]
On the other hand, a signal supplied from the interface card (not shown) to the exchange, which is supplied through the transmission line 21, is received by the interface function unit 14, encoded by the encoding function unit 12, and transmitted from the interface function unit 15 by the transmission It is sent to a wireless interface card (not shown) through 23.
[0041]
Here, when an abnormality (failure) occurs in the encoding function unit 12 or the decoding function unit 13, the interface function units 14, 15 perform generation, transmission, and reception of the test pattern in accordance with the operation of the test program. Function.
[0042]
FIG. 4 is a block diagram for explaining the internal configuration of the interface function unit 14 in the card 1 of FIG.
[0043]
In FIG. 4, the interface function unit 14 sends the signal supplied from the decoding function unit 13 to the transmission line 20 as it is during a normal operation with respect to the decoding process, but when the test program for the decoding function unit 13 is activated. The test pattern signal from the decoding function unit 13 is not sent to the transmission path 20 according to an instruction from the control unit 100, but is compared with a predetermined expected value by the comparator 110. On the other hand, with regard to the encoding process, during a normal operation, a signal supplied through the transmission path 21 is sent to the encoding function unit 12, but when the test program is activated, the test pattern generator 120 generates the signal under the control of the control unit 100. The obtained signal is transmitted to the encoding function unit 12.
[0044]
FIG. 5 is a block diagram for explaining the internal configuration of the interface function unit 15 in the card 1 of FIG.
[0045]
In FIG. 5, the interface function unit 15 transmits a signal supplied through the transmission line 22 to the decoding function unit 13 during the normal operation with respect to the decoding process, but when the test program for the decoding function unit 13 is activated. Sends the signal generated by the test pattern generator 121 under the control of the control unit 101 to the decoding function unit 13. In the encoding process, the signal supplied from the encoding function unit 12 is transmitted to the transmission line 23 during the normal operation, but the signal from the encoding function unit 12 is transmitted when the test program for the encoding function unit 12 is started. Under the control of the control unit 101, the signal is not transmitted to the transmission line 23 but is compared with the expected value in the comparator 111.
[0046]
The operation of executing the test program in the above-described embodiment to execute the diagnosis of the card will be described in further detail with reference to FIGS. In FIG. 3, it is assumed that the monitoring control function unit 10 first detects an abnormality in the encoding function unit 12 performing the encoding process in the card 1. When the supervisory control function unit 10 reports an abnormality detection to the supervisory control card 2 (FIG. 1), the supervisory control card 2 issues an operation stop command to the abnormally detected card 1 and further instructs the standby card 3 to switch. .
[0047]
The card 1 completely stops input / output of signals that affect other cards or other devices, and then operates the test program. Here, since an abnormality in the encoding process is detected, for example, a signal of a predetermined test pattern is generated from the interface function unit 14 of the card, and the encoding function unit 12 performs the encoding process.
[0048]
The interface function unit 15 of the card has an expected value in the case where the test pattern is normally encoded, compares the actually encoded data with the expected value, and Check that it is working properly.
[0049]
In addition, a test is generally performed on various functions of the encoding function unit 12, and the result is reported to the monitoring control function unit 10. The monitoring control function unit 10 reports the test result to the monitoring control card 2 as it is. When the result is abnormal (failure), the monitoring control card 2 regards the card 1 as a failure card and sets an alarm. That is, the function block (failure card) for which the diagnostic information indicating the abnormality is received is stopped as an abnormal function block.
[0050]
The card 1 stores a log when an abnormality is detected and a log when a test program is executed. That is, in the system according to the present embodiment, the monitoring control function unit 10 of each functional block (cards 1 and 3) is configured to store data related to the diagnosis.
[0051]
On the other hand, when the result of the test program is normal, it is determined that the abnormality has been detected erroneously, and the state is returned to the normal state, and the operation is enabled. That is, the function block (card) for which the diagnostic information indicating that there is no abnormality is received is managed as operable. However, if detection data including conditions for the detection, such as a log when an abnormality is initially detected in the encoding function unit 12 and a log during the operation of the test program, is stored, the cause of the erroneous detection may be reduced. It is a powerful clue to analyze.
[0052]
After that, if the encoding function unit 12 detects an abnormality in the card 1 due to the same factor, the test program is operated in the same manner. Or a problem in the subsequent test program, the card 1 is determined to be faulty, and a log of data related to fault diagnosis is stored.
[0053]
According to the embodiment described above, the risk of erroneous detection of an abnormality is reduced, and data serving as clues for investigating the cause of the erroneous detection can be obtained from the failure log. Further, even in the case where a failure has actually occurred, it can be very useful for specifying an abnormal location and an abnormal factor from a log or the like relating to the test program. For this reason, the accuracy of detecting an abnormality in the system is increased, the possibility of erroneous detection is reduced, and the cause of the failure is also identified, which greatly contributes to improving the quality of the device (system). Further, since data for a failure log can be obtained and stored for a limited functional unit relating to the occurrence of an abnormality, it is possible to obtain relatively small-capacity data necessary and sufficient for identifying the cause of the failure. In addition, it is possible to contribute to the improvement of system quality.
[0054]
Note that the present invention is not limited to the above-described embodiment, and is widely applied and effective for devices and systems having a monitoring control function and a redundant configuration.
[0055]
【The invention's effect】
According to the present invention, a test (diagnosis) can be performed immediately after the occurrence of an abnormality under substantially the same conditions as when an abnormality actually occurs in the system, so that the abnormality is highly likely to be reproduced and the cause of the abnormality is appropriately determined. A monitoring control system and a monitoring system which can easily obtain data for accurate analysis and can obtain relatively small volume of data necessary and sufficient for specifying the cause of a failure and can contribute to improvement of the quality of an apparatus or a system. A control method is realized.
[Brief description of the drawings]
FIG. 1 is a block diagram for explaining a supervisory control system and a supervisory control method of the present invention.
FIG. 2 is a flowchart showing the operation of the embodiment according to the present invention.
FIG. 3 is a block diagram for explaining an internal configuration of a card in the monitoring control system of FIG. 1;
FIG. 4 is a block diagram for explaining an internal configuration of an interface function unit in the card of FIG. 3;
FIG. 5 is a block diagram for explaining an internal configuration of an interface function unit in the card of FIG. 3;
[Explanation of symbols]
1,3 card (functional block)
2 Monitoring control card (monitoring control block)
REFERENCE SIGNS LIST 10 monitoring control function unit 11 function unit 12 encoding function unit 13 decoding function unit 14, 15 interface function unit 20, 21, 22, 23 transmission line 100, 101 control unit 110, 111 comparator 120, 121 test pattern generator

Claims (20)

A function unit that has a predetermined function when each is normal and is a management unit as a monitoring target of the abnormality when its own abnormality occurs, and a monitoring control function unit that detects an abnormality of the function unit A plurality of functional blocks that can be configured and operated alternately,
When the monitoring control function unit of one of the plurality of function blocks detects an abnormality of the corresponding function unit, the other function corresponding to the one function block receives the information related to the detection. A monitoring and control block that operates by replacing the block,
A monitoring and control system comprising:
The monitoring control function unit of each of the plurality of function blocks, when detecting an abnormality of the corresponding function unit, performs a diagnosis by operating a test program for a portion related to the abnormality, and the abnormality is found as the initial detection result. When it is diagnosed that the function block is abnormal, when it is diagnosed that it is not abnormal contrary to the initial detection result, it is configured to notify the monitoring control block to that effect,
The monitoring control block stops the operation as a function block for which the diagnostic information indicating that there is an abnormality is received as the function block, and stops the operation of the function block. Is a monitoring and control system configured to be managed as operable functional blocks. The monitoring control system according to claim 1, wherein the monitoring control function unit of each of the plurality of functional blocks is configured to store data relating to the diagnosis. The monitoring control function unit of each of the plurality of function blocks completely stops input / output of a signal that may cause an abnormality of its own function block to affect another when detecting an abnormality of the corresponding function unit. 2. The monitoring and control system according to claim 1, wherein the system is configured to cause the test program to operate. The supervisory control system according to claim 1, wherein each of the plurality of functional blocks is configured as a card having a circuit block that covers the function. The supervisory control system according to claim 4, wherein the card includes an encoding function unit for encoding the supplied data and a decoding function unit for decoding the supplied data. The supervisory control system according to claim 5, wherein the card further includes an interface function unit that inputs and outputs data corresponding to the encoding function unit and the decoding function unit. The interface function unit is configured to, when an abnormality occurs in the encoding function unit and / or the decoding function unit, generate and transmit / receive a test pattern in accordance with the operation of the test program by the monitoring control function unit. The monitoring control system according to claim 6, wherein The interface function unit holds an expected value when the test pattern is normally processed, and diagnoses the encoding function unit by comparing a value obtained by actual processing of the test pattern with the expected value. The monitoring control system according to claim 7, wherein the monitoring control system is configured as described above. The monitoring control block is also a functional block that receives diagnostic information indicating that there is no abnormality as the functional block and manages the functional block as an operable one. The monitoring control system according to claim 1, wherein the monitoring control system is configured to store detection data such as the following. The monitoring control block is configured such that when the diagnostic block indicating that there is no abnormality as the functional block is received and the functional block managed as operable is in a state where the functional block is actually operating again, When receiving diagnostic information indicating that the function unit is abnormal from the monitoring control function unit, the function block is configured to stop operating as an abnormal function block. The monitoring control system according to claim 1. A function unit that has a predetermined function when each is normal and is a management unit as a monitoring target of the abnormality when its own abnormality occurs, and a monitoring control function unit that detects an abnormality of the function unit A plurality of functional blocks that can be configured and operated alternately are installed.
When the monitoring control function unit of one of the plurality of function blocks detects an abnormality of the corresponding function unit, the other function corresponding to the one function block receives the information related to the detection. Install a monitoring and control block that operates by replacing the block,
Configure a monitoring control system including each of the functional blocks and a monitoring control block,
When an abnormality of the corresponding function unit is detected by the monitoring control function unit of each of the plurality of function blocks, a test program is operated for a portion related to the abnormality to perform diagnosis, and an abnormality is detected as an initial detection result. When it is diagnosed that there is an abnormality as the functional block, when it is diagnosed that it is not abnormal contrary to the initial detection result, to notify the monitoring control block to that effect,
By the monitoring control block, the function block in which the diagnostic information indicating that the function block is abnormal is stopped as an abnormal function block and the function block in which the diagnostic information indicating that the function block is not abnormal is received. A monitoring control method characterized by managing as a function block that can be operated. 12. The monitoring control method according to claim 11, wherein the monitoring control function unit of each of the plurality of functional blocks stores the data related to the diagnosis. When an abnormality of the corresponding function unit is detected by the monitoring control function unit of each of the plurality of function blocks, the input / output of a signal that may cause an abnormality of the function block of the own function to be completely stopped is completely stopped. 12. The monitoring control method according to claim 11, further comprising operating the test program. The monitoring control method according to claim 11, wherein each of the plurality of functional blocks is configured as a card having a circuit block that covers the function. The monitoring control method according to claim 14, wherein the card includes an encoding function unit that encodes the supplied data and a decoding function unit that decodes the supplied data. The monitoring control method according to claim 15, wherein the card further includes an interface function unit that inputs and outputs data corresponding to the encoding function unit and the decoding function unit. When an abnormality occurs in the encoding function unit and / or the decoding function unit, the interface function unit generates and transmits and receives a test pattern in accordance with the operation of the test program by the monitoring control function unit. The monitoring control method according to claim 16. The interface function unit diagnoses the encoding function unit by comparing an expected value when the test pattern is processed normally and a value obtained by actual processing related to the test pattern. Item 18. The monitoring control method according to Item 17. The monitoring control block receives the diagnostic information indicating that the function block is not abnormal as the function block, and also performs a detection condition when the monitoring control function unit first detects the abnormality with respect to the function block that is managed as operable. The monitoring control method according to claim 11, wherein detection data such as the above is stored. When the monitoring control block receives the diagnostic information indicating that the function block is not abnormal as the function block, and the function block managed as being operable is in the state of being actually operated again, 12. The monitoring control according to claim 11, wherein when receiving diagnostic information indicating that the function unit is abnormal from the monitoring control function unit, the function block is regarded as an abnormal function block and operation is stopped. Method.

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