Back-propagation learning in expert networks

Back-propagation learning in expert networks

Expert networks are event-driven, acyclic networks of neural objects derived from expert systems. The neural objects process information through a nonlinear combining function that is different from, and more complex than, typical neural network node processors. The authors develop back-propagation...

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Veröffentlicht in:IEEE transactions on neural networks 1992-01, Vol.3 (1), p.62-72
Hauptverfasser: Lacher, R.C., Hruska, S.I., Kuncicky, D.C.
Format: Artikel
Sprache:eng
Schlagworte:
Application software
Automation
Exact sciences and technology
Expert systems
Function theory, analysis
History
Hypercubes
Intelligent networks
Knowledge acquisition
Mathematical methods in physics
Neural networks
Physics
Supervised learning
Testing
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Zusammenfassung:Expert networks are event-driven, acyclic networks of neural objects derived from expert systems. The neural objects process information through a nonlinear combining function that is different from, and more complex than, typical neural network node processors. The authors develop back-propagation learning for acyclic, event-driven networks in general and derive a specific algorithm for learning in EMYCIN-derived expert networks. The algorithm combines back-propagation learning with other features of expert networks, including calculation of gradients of the nonlinear combining functions and the hypercube nature of the knowledge space. It offers automation of the knowledge acquisition task for certainty factors, often the most difficult part of knowledge extraction. Results of testing the learning algorithm with a medium-scale (97-node) expert network are presented.< >
ISSN:1045-9227
1941-0093
DOI:10.1109/72.105418