Expert system for detecting high impedance faults
First Claim
1. A method of detecting high impedance faults occurring on a distribution circuit coupled to an AC power source, comprising the steps of:
- analyzing a parameter of power flowing over the distribution circuit using a set of fault detection techniques each providing a number of fault indications;
weighting the number of fault indications from each fault detection technique, wherein the weighting step comprisesweighting the number of fault indications from each fault detection technique according to an elliptical formula,initially assigning a weight to the number of fault indications from each fault detection technique, andadjusting the assigned weight of any fault detection technique having more than one fault indication; and
combining the weighted number of fault indications from each fault detection technique to determine whether high impedance fault has occurred.
1 Assignment
0 Petitions
Accused Products
Abstract
An expert detection system includes a method and apparatus for detecting high impedance faults occurring on a distribution circuit coupled to an AC power source. Based upon an expert'"'"'s knowledge of high impedance fault behavior and the performance of various fault detection techniques, the expert forms a belief as to whether a high impedance fault has indeed occurred. The expert'"'"'s beliefs may be adjusted with an elliptic formula, and then used to weight the status output of each technique. The weighted multiple technique outputs are combined to determine whether a high impedance fault has occurred. The expert'"'"'s beliefs are calibrated during initial start-up by comparison with a confirmed performance history of the detector using a scoring rule. The belief calibration may be included during operation to provide on-line adaption of the expert detector to the changing situations of the distribution circuit.
117 Citations
20 Claims
-
1. A method of detecting high impedance faults occurring on a distribution circuit coupled to an AC power source, comprising the steps of:
-
analyzing a parameter of power flowing over the distribution circuit using a set of fault detection techniques each providing a number of fault indications; weighting the number of fault indications from each fault detection technique, wherein the weighting step comprises weighting the number of fault indications from each fault detection technique according to an elliptical formula, initially assigning a weight to the number of fault indications from each fault detection technique, and adjusting the assigned weight of any fault detection technique having more than one fault indication; and combining the weighted number of fault indications from each fault detection technique to determine whether high impedance fault has occurred.
-
-
2. A method of detecting high impedance faults occurring on a distribution circuit coupled to an AC power source, comprising the steps of:
-
analyzing a parameter of power flowing over the distribution circuit using a set of fault detection techniques each providing a number of fault indications; weighting the number of fault indications from each fault detection technique; combining the weighted number of fault indications from each fault detection technique to determine whether a high impedance fault has occurred; inputting a status input of the status of the distribution circuit; calibrating the weighting of at least one of the fault detection techniques to a performance history in response to the status input, wherein the calibrating step comprises the steps of; comparing the weighting of at least one of the fault detection techniques with the status input according to a scoring rule; awarding a score to at least one of the fault detection techniques in response to the comparing step; and changing the weighting of at least one of the fault detection techniques when the score indicates suboptimal performance; and repeating said analyzing step, said weighting step, and said combining step in response to said calibrating step. - View Dependent Claims (3, 4, 5)
-
-
6. A method of detecting high impedance faults occurring on a distribution circuit coupled to an AC power source, comprising the steps of:
-
analyzing a parameter of power flowing over the distribution circuit using a set of fault detection techniques each providing a number of fault indications; weighting the number of fault indications from each fault detection technique; combining the weighted number of fault indications from each fault detection technique to determine whether a high impedance fault has occurred;
whereinthe analyzing step comprises analyzing the load current during a decision time period to produce an analysis unit of data representing the load current during the decision time period, and continually updating the analysis unit of data by displacing the oldest data with new data; the weighting step comprises weighting the number of fault indications from each fault detection technique according to beliefs of an expert as to the accuracy of each technique by an elliptical formula; and the method further includes an initial start-up procedure comprising the steps of; providing a status input of the status of the distribution circuit; and calibrating the weighting of at least one of the fault detection techniques by comparing the weighting of at least one of the fault detection techniques with the status input according to a scoring rule, awarding a score to at least one of the fault detection techniques in response to the comparing step, and changing the weighting of at least one of the fault detection techniques when the score falls below a selected limit.
-
-
7. An expert system detection apparatus for detecting high impedance faults occurring on a distribution circuit coupled to an AC power source, comprising:
-
a monitor for monitoring a parameter of power flowing over the distribution circuit and in response thereto, generating a load signal; and a controller responsive to the load signal for analyzing the power flow parameter over time with a set of fault detection techniques each providing distribution circuit status outputs including fault indications, the controller for weighting and combining the fault indications of each fault detection technique and determining therefrom whether a high impedance fault has occurred, wherein the controller includes a calibration device for receiving a status input of the status of the distribution circuit and for calibrating the weighting by the controller of at least one of the fault detection techniques in response to a performance history of at least one of the fault detection techniques. - View Dependent Claims (8, 9)
-
- 10. An expert system detection apparatus for detecting high impedance faults occurring on a distribution circuit coupled to an AC power source, comprising a controller responsive to at least one parameter of power flowing over the distribution circuit, the controller having a set of fault detection portions for analyzing the distribution circuit status and providing a number of status outputs, the controller also having a weighting portion for weighting the status outputs, and a combination portion for combining the weighted status outputs to determine whether a high impedance fault has occurred, wherein the controller comprises an adaptive controller including a calibration portion for comparing the combined weighted status outputs with an input of the status of the distribution circuit, and in response thereto, for changing the weighting of the status outputs when a variation between a combined performance history of the status outputs and the status input exceeds a selected limit.
-
12. A method of detecting high impedance faults occurring on a distribution circuit coupled to an AC power source, comprising the steps of:
-
analyzing a load current flowing over the distribution circuit for an occurrence of a high impedance fault using a set of fault detection techniques, and over a decision time period each fault detection technique providing a number of status outputs indicating normal and fault conditions on the distribution circuit; assigning a weight to the status outputs of each fault detection technique; when more than one of the status outputs of a fault detection technique indicate the occurrence of a fault, adjusting the assigned weight for the status outputs of said fault detection technique, wherein the adjusting step comprises adjusting the assigned weight of said fault detection technique in response to a weight previously assigned, and in response to the number of fault indications and the maximum number of possible fault indications for said fault detection technique during a predetermined time period; and combining the assigned weight of the status outputs of each fault detection technique to determine whether a high impedance fault has occurred. - View Dependent Claims (13, 14, 15)
-
-
16. A method of detecting high impedance faults on a power distribution system, said method comprising the steps of:
-
analyzing a parameter of power flowing over said power distribution system using a set of power flow fault detection techniques, each of said power flow fault detection techniques providing a fault indication, said set of power flow fault detection techniques producing a plurality of fault indications; calibrating the weighting of at least one of said power flow fault detection techniques, said calibrating step including the steps of comparing the weighting of a selected power flow fault detection technique with a status input according to a scoring rule, awarding a score to said selected power flow fault detection technique in response to said comparing step, and changing the weighting of said selected power flow fault detection technique when said score falls below a selected limit; weighting each of said plurality of fault indications in accordance with a human expert'"'"'s belief as to the accuracy of each fault detection technique to produce a plurality of weighted fault indications; and combining said plurality of weighted fault indications into a combined signal indicative of whether a high impedance fault has occurred. - View Dependent Claims (17, 18, 19, 20)
-
Specification