Title :
Inductive learning for fault diagnosis
Author :
Berenji, Hamid R. ; Ametha, Jayesh ; Vengerov, David
Author_Institution :
Computational Sci. Div., NASA Ames Res. Center, Moffet Field, CA, USA
Abstract :
There is a steadily increasing need for autonomous systems that must be able to function with minimal human intervention to detect and isolate faults, and recover from such faults. In this paper we present a novel hybrid Model based and Data Clustering (MDC) architecture for fault monitoring and diagnosis, which is suitable for complex dynamic systems with continuous and discrete variables. The MDC approach allows for adaptation of both structure and parameters of identified models using supervised and reinforcement learning techniques. The MDC approach will be illustrated using the model and data from the Hybrid Combustion Facility (HCF) at the NASA Ames Research Center.
Keywords :
condition monitoring; fault diagnosis; identification; large-scale systems; learning by example; modelling; observers; pattern clustering; Hybrid Combustion Facility; autonomous systems; complex dynamic systems; component simulation models; continuous variables; data clustering architecture; discrete variables; fault diagnosis; fault isolation; fault monitoring; hybrid model based architecture; inductive learning; minimal human intervention; model identification algorithm; observers; open knowledge-based architecture; reinforcement learning; supervised learning; Clustering algorithms; Computational intelligence; Fault detection; Fault diagnosis; Humans; Intelligent systems; Learning; Monitoring; NASA; Training data;
Conference_Titel :
Fuzzy Systems, 2003. FUZZ '03. The 12th IEEE International Conference on
Print_ISBN :
0-7803-7810-5
DOI :
10.1109/FUZZ.2003.1209453
