Fault-detecting apparatus for controls
First Claim
1. In a fault-detecting apparatus (8) for a closed-loop control system (1, 2 and 3) having an object for fault detection which makes up part of said control system, said apparatus being supplied with digital signals obtained by sampling input and output of said object with a fixed periodic time, and detecting an abnormal state of said object on the basis of said digital signals so as to notify the occurrence of said abnormal state, said apparatus (8) comprising:
- mathematical model means (B4-B10) simulating an input-output characteristic of said object included in said control system (1, 2 and
3), said model means being supplied with the digital signals corresponding to the input of said object with every sampling, and generating the digital signals corresponding to the output of said object;
first means (B11-B15) for comparing the output of said model means with the output of said object with every sampling, and for detecting an abnormal state of said object so as to notify the occurrence of the abnormal state;
second means (B17-B30) for receiving time-series digital signals relating to one of input and output of said object for a predetermined period when the presence of a model correction signal is confirmed, for determining an average value of said time-series digital signals received during the predetermined period, and for generating a signal corresponding to the degree of the deviation of said time-series digital signals from said average value;
third means (B31) for determining whether or not the correction of the characteristic of said model means is possible, on the basis of said signal corresponding to the degree of the deviation;
fourth means (B33-B45) for correcting the characteristic of said model means on the basis of said time-series digital signal received during the same period as said predetermined period of said second means when said third means decides that the correction is possible,
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Abstract
A fault-detecting apparatus comprises a model simulating the input-output characteristics of an object for fault detection. The model includes statics and dynamics and is impressed with the same input as the object for fault detection. The output of the model is compared with the output of the object for fault detection, and if the deviation is great, it is indicated that a fault has generated in the object for fault detection. In order to determine whether or not correction of the model is possible, the degree of the deviation is determined from an average value of the time-series signals produced from various parts of the fault-detecting apparatus during a certain period of time. For this purpose, a variation is calculated, for example; and if it is smaller than a predetermined value VL, a normal condition is judged and the statics correction is considered possible, while if the variation is larger than VH (which in turn is larger than VL), a transient condition is judged, and the dynamics correction is considered possible. Correction of the characteristics is effected by processing the data applied to the fault-detecting apparatus for the previous certain period of time.
40 Citations
7 Claims
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1. In a fault-detecting apparatus (8) for a closed-loop control system (1, 2 and 3) having an object for fault detection which makes up part of said control system, said apparatus being supplied with digital signals obtained by sampling input and output of said object with a fixed periodic time, and detecting an abnormal state of said object on the basis of said digital signals so as to notify the occurrence of said abnormal state, said apparatus (8) comprising:
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mathematical model means (B4-B10) simulating an input-output characteristic of said object included in said control system (1, 2 and
3), said model means being supplied with the digital signals corresponding to the input of said object with every sampling, and generating the digital signals corresponding to the output of said object;first means (B11-B15) for comparing the output of said model means with the output of said object with every sampling, and for detecting an abnormal state of said object so as to notify the occurrence of the abnormal state; second means (B17-B30) for receiving time-series digital signals relating to one of input and output of said object for a predetermined period when the presence of a model correction signal is confirmed, for determining an average value of said time-series digital signals received during the predetermined period, and for generating a signal corresponding to the degree of the deviation of said time-series digital signals from said average value; third means (B31) for determining whether or not the correction of the characteristic of said model means is possible, on the basis of said signal corresponding to the degree of the deviation; fourth means (B33-B45) for correcting the characteristic of said model means on the basis of said time-series digital signal received during the same period as said predetermined period of said second means when said third means decides that the correction is possible, - View Dependent Claims (5)
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2. In a fault-detecting apparatus (8) for a closed-loop control system (1, 2 and 3) having an object for fault detection which makes up part of said control system, said apparatus being supplied with digital signals obtained by sampling input and output of said object with a fixed periodic time, and detecting an abnormal state of said object on the basis of said digital signals so as to notify the occurrence of said abnormal state, said apparatus (8) comprising:
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mathematical model means (B4-B10) simulating an input-output static characteristic of said object included in said control system (1, 2 and
3), said model means being supplied with the digital signals corresponding to the input of said object with every sampling, and generating the digital signals corresponding to the output of said object;first means (B11-B15) for comparing the output of said model means with the output of said object with every sampling, and for detecting an abnormal state of said object so as to notify the occurrence of the abnormal state; second means (B17-B30) for receiving time-series digital signals relating to one of input and output of said object for a predetermined period when the presence of a model correction signal is confirmed, for determining an average value of said time-series digital signals received during the predetermined period, and for generating a signal corresponding to the degree of the deviation of said time-series digital signals from said average value; third means (B31) for deciding that the correction of the input-output static characteristic of said model means is possible when said signal corresponding to the degree of the deviation is less than a predetermined value; fourth means (B33-B45) for correcting the input-output static characteristic of said model means on the basis of said timeseries digital signal received during the same period as said predetermined period of said second means when said third means decides that the correction is possible.
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3. In a fault-detecting apparatus (8) for a closed-loop control system (1, 2 and 3) having an object for fault detection which makes up part of said control system, said apparatus being supplied with digital signals obtained by sampling input and output of said object with a fixed periodic time, and detecting an abnormal state of said object on the basis of said digital signals so as to notify the occurrence of said abnormal state, said apparatus (8) comprising:
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mathematical model means (B4-B10) simulating an input-output dynamic characteristic of said object included in said control system (1, 2 and
3), said model means being supplied with the digital signals corresponding to the input of said object with every sampling, and generating the digital signals corresponding to the output of said object;first means (B11-B15) for comparing the output of said model means with the output of said object with every sampling, and for detecting an abnormal state of said object so as to notify the occurrence of the abnormal state; second means (B17-B30) for receiving time-series digital signals relating to one of input and output of said object for a predetermined period when the presence of a model correction signal is confirmed, for determining an average value of said time-series digital signals received during the predetermined period, and for generating a signal corresponding to the degree of the deviation of said time-series digital signals from said average value; third means (B31) for deciding that the correction of the input-output dynamic characteristic of said model means is possible when said signal corresponding to the degree of the deviation is larger than a predetermined value, fourth means (B33-B45) for correcting the input-output dynamic characteristics of said model means on the basis of said time-series digital signal received during the same period as said predetermined period of said second means when said third means decides that the correction is possible.
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4. In a fault-detecting apparatus (8) for a closed-loop control system (1, 2 and 3) having an object for fault detection which makes up part of said control system, said apparatus being supplied with digital signals obtained by sampling input and output of said object with a fixed periodic time, and detecting an abnormal state of said object on the basis of said digital signals so as to notify the occurrence of said abnormal state, and apparatus (8) comprising:
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mathematical model means (B4-B10) simulating input-output static and input-output dynamic characteristics of said object included in said control system (1, 2 and
3), said model means being supplied with the digital signals corresponding to the input of said object with every sampling, and generating the digital signals corresponding to the output of said object;first means (B11-B15) for comparing the output of said model means with the output of said object with every sampling, and for detecting an abnormal state of said object so as to notify the occurrence of the abnormal state; second means (B17-B30) for receiving time-series digital signals relating to one of input and output of said object for a predetermined period when the presence of a model correction signal is confirmed, for determining an average value of said time-series digital signals received during the predetermined period, and for generating a signal corresponding to the degree of the deviation of said time-series digital signals from said average value; third means (B31) for deciding that the correction of the input-output static characteristic of said model means is possible when said signal corresponding to the dgree of the deviation is small relatively, and that the correction of the input-output dynamic characteristics of said model means is possible when said signal is large relatively; fourth means (B33-B45) for correcting the characteristic of said model means on the basis of said time-series digital signal received during the same period as said predetermined period of said second means when said third means decides that the correction is possible.
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6. In fault-detecting apparatus (8) for a closed-loop control system (1, 2 and 3) in which an object for fault detection is controls which makes up part of said control system, said controls producing an output (X3) (X3 =f (K1 X1 +K2 X2)) on the basis of the deviation (K1 X1 +K2 X2) between a target signal (X1) and feedback signal (X2), said apparatus being supplied with digital signals obtained by sampling inputs X1 and X2 and output (X3) of said controls with a fixed periodic time, and detecting an abnormal state of said controls on the basis of said digital signals so as to notify the occurrence of said abnormal state, said apparatus (8) comprising:
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mathematical model means (B4-B10) simulating an input-output characteristic X3 =f(K1 X1 +K2 X2)) of said controls included in said control system (1, 2 and
3), said model means being supplied with the digital signals corresponding to the input (X1 and X2) of said controls with every sampling, and generating the digital signals (X3 *) corresponding to the output (X3) of said controls;first means (B11-B15) for comparing the output (X3 *) of said model means with the output (X3) of said controls with every sampling, and for detecting an abnormal state of said controls so as to notify the occurrence of the abnormal state; second means (B17-B30) for receiving time-series digital signals relating to at least the input (X1 and X2) of said controls for a predetermined period when the presence of a model correction signal is confirmed, for determining an average value (S1 and S2) of said time series digital signals (X1 and X2) received during the predetermined period, and for generating a signal corresponding to the degree of the deviation of said time-series digital signals from said average value; third means (B31) for determining whether or not the correction of the characteristic of said model means is possible, on the basis of said signal corresponding to the degree of the deviation; fourth means (B33-B45) for correcting to K1 =S1 /S1 +S2 and K2 =S2 /S1 +S2 on the basis of average values (S1 and S2) of said time series digital signal received during the same period as said predetermined period of said second means when said third means decides that the correction is possible.
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7. In a fault-detecting apparatus (8) for a closed-loop control system (1, 2 and 3) in which an object for fault detection is an operation section which makes up part of said control system, said operation section being controlled by an operation signal (X3) and producing a feedback signal (X2), said apparatus being supplied with digital signals obtained by sampling input (X3) and output (X2) of said operation section with a fixed periodic time, and detecting an abnormal state of said operation section on the basis of said digital signals so as to notify the occurrence of said abnormal state, said apparatus (8) comprising:
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mathematical model means (B4-B10) simulating an input-output characteristic of said operation section included in said control system (1, 2 and
3), by a polygonal function with the gradient variable according to the value of X3, said model means being supplied with the digital signals corresponding to the input (X3) of said operation section with every sampling, and generating the digital signals (X2 *) corresponding to the output (X2) of said operation section;first means (B11-B15) for comparing the output (X2 *) of said model means with the output (X2) of said operation section with every sampling, and for detecting an abnormal state of said operation section so as to notify the occurrence of the abnormal state; second means (B17-B30) for receiving time-series digital signals relating to one of input (X3) and output (X2) of said operation section for a predetermined period when the presence of a model correction signal is confirmed, for determining an average values (S2 and S3) of said time-series digital signals (X2 and X3) received during the predetermined period, and for generating a signal corresponding to the degree of the deviation of said time-series digital signals from said average value; third means (B31) for determining whether or not the correction of the characteristic of said model means is possible, on the basis of said signal corresponding to the degree of the deviation; fourth means (B33-B45) for correcting the polygonal function of the characteristic of said model means on the basis of the average values (S2 and S3) of said time-series digital signal received during the same period as said predetermined period of said second means when said third means decides that the correction is possible.
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Specification