| Automated diagnosis of analog circuits |
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International conference on Industrial and engineering applications of artificial intelligence and expert systems
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Proceedings of the 2nd international conference on Industrial and engineering applications of artificial intelligence and expert systems - Volume 1
table of contents
Tullahoma, Tennessee, United States
Pages: 85 - 91
Year of Publication: 1989
ISBN:0-89791-320-5
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Downloads (6 Weeks): 0, Downloads (12 Months): 7, Citation Count: 0
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 ABSTRACT
While a number of different approaches have been proposed to automatically troubleshoot electronic systems given schematic information, few are sufficiently powerful to tackle the complexity of analog circuits at the resistor/transistor level. This paper describes work which applies quantitative model-based reasoning techniques to this problem. The circuit schematic is converted into a constraint diagram to which the combination of constraint propagation and dependency tracking are applied to search for inconsistencies and identify the implicated components. Instead of resorting to the propagation of symbols, the technique of aggregate models is used to enhance deductive power but with manageable computation. These ideas have been implemented in the program FIX which diagnoses a given circuit by recognizing inconsistencies among measurements, identifies the set of fault candidates and their posterior probabilities, and suggests the best next measurement. Modeling and inference issues are discussed, and diagnosis of various faults in an example circuit by FIX is described.
REFERENCES
Note: OCR errors may be found in this Reference List extracted from the full text article. ACM has opted to expose the complete List rather than only correct and linked references.
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Duhamel, P., and Rault, J. C., "Automatic Test Generation Techniques for Analog Circuits and Systems: A Review", IEEE Transactions on Circuits and Systems, CAS-26(1979) 411-440.
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Ben-Bassat, M., et. al., "AI-TEST A Real Life Expert System for Electronic Troubleshooting", Proceedings of the Fourth Conference on Artificial Intelligence Applications(1987), 2-10.
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Brown, J. S., Burton, R. R., and de Kleer, J., "Pedagogical, Natural Language and Knowledge Engineering Techniques in SOPHIE i, II, and III", in D. Sleeman and J. S. Brown (Eds.), Intelligent Tutoring Systems, Academic Press, New York(1982), 227- 282.
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