Title :
Hierarchical motor diagnosis utilizing structural knowledge and a self-learning neuro-fuzzy scheme
Author :
Fuessel, Dominik ; Isermann, Rolf
Author_Institution :
Inst. of Autom. Control, Tech. Hochschule Darmstadt, Germany
fDate :
10/1/2000 12:00:00 AM
Abstract :
A fault diagnosis system contains a classification system that can distinguish between different faults based on observed symptoms of the process under investigation. Since the fault symptom relationships are not always known beforehand, a system is required which can be learned from experimental or simulated data. A fuzzy-logic-based diagnosis is advantageous. It allows an easy incorporation of a priori known rules and enables the user to understand the inference of the system. In this paper, a new diagnosis scheme is presented and applied to a DC motor. The approach is based on the combination of structural a priori knowledge and measured data in order to create a hierarchical diagnosis system that can be adapted to different motors. Advantages of the system are its transparency and an increased robustness over traditional classification schemes
Keywords :
DC motors; electric machine analysis computing; fault diagnosis; fault trees; fuzzy neural nets; inference mechanisms; unsupervised learning; DC motor; classification system; fault diagnosis system; fault symptom relationships; fault trees; fuzzy logic; fuzzy neural nets; fuzzy-logic-based diagnosis; hierarchical diagnosis system; hierarchical motor diagnosis; inference; monitoring; self-learning neuro-fuzzy scheme; structural knowledge; Computational intelligence; DC motors; Fault diagnosis; Fault trees; Fuzzy logic; Fuzzy neural networks; Monitoring; Neural networks; Robustness; Signal analysis;
Journal_Title :
Industrial Electronics, IEEE Transactions on
