A methodology for fault diagnosis in robotic systems using neural networks

Arun T. Vemuri; Marios M. Polycarpou

doi:10.1017/S0263574703005204

Abstract

Fault diagnosis plays an important role in the operation of modern robotic systems. A number of researchers have proposed fault diagnosis architectures for robotic manipulators using the model-based analytical redundancy approach. One of the key issues in the design of such fault diagnosis schemes is the effect of modeling uncertainties on their performance. This paper investigates the problem of fault diagnosis in rigid-link robotic manipulators with modeling uncertainties. A learning architecture with sigmoidal neural networks is used to monitor the robotic system for off-nominal behavior due to faults. The robustness, sensitivity, missed detection and stability properties of the fault diagnosis scheme are rigorously established. Simulation examples are presented to illustrate the ability of the neural network based robust fault diagnosis scheme to detect and accommodate faults in a two-link robotic manipulator.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Oblak, S. Skrjanc, I. and Blazic, S. 2005. On applying interval fuzzy model to fault detection and isolation for nonlinear input-output systems with uncertain parameters. p. 465.

Yildirim, ?ahin 2005. A Proposed Hybrid Recurrent Neural Control System for Two Co-operating Robots. Journal of Intelligent and Robotic Systems, Vol. 42, Issue. 1, p. 95.

Vemuri, Arun and Subbarao, Kamesh 2006. Fault Isolation Using Extrinsic Curvature of Nonlinear Fault Models. p. 1.

Oblak, Simon Škrjanc, Igor and Blažič, Sašo 2007. Fault detection for nonlinear systems with uncertain parameters based on the interval fuzzy model. Engineering Applications of Artificial Intelligence, Vol. 20, Issue. 4, p. 503.

Tinós, Renato Terra, Marco Henrique and Bergerman, Marcel 2007. A fault tolerance framework for cooperative robotic manipulators. Control Engineering Practice, Vol. 15, Issue. 5, p. 615.

Subbarao, Kamesh and Vemuri, Arun 2007. Fault Isolation Using Extrinsic Curvature For Multi-Input-Multi-Output Systems With Nonlinear Fault Models. p. 3246.

Tinós, Renato and Terra, Marco Henrique 2008. A fault detection and isolation system for cooperative manipulators. Sba: Controle & Automação Sociedade Brasileira de Automatica, Vol. 19, Issue. 4, p. 406.

Zhang, Bin Yan, Jun and Tian, Cheng 2008. Study on Fault Diagnosis System of Diesel Engine Fuel Injection System Based on BP Neural Network. p. 108.

Subbarao, Kamesh and Vemuri, Arun T. 2009. Extrinsic curvature-based fault isolation for multi-input—multi-output systems with non-linear fault models. Transactions of the Institute of Measurement and Control, Vol. 31, Issue. 3-4, p. 259.

Caccavale, F. Cilibrizzi, P. Pierri, F. and Villani, L. 2009. Actuators fault diagnosis for robot manipulators with uncertain model. Control Engineering Practice, Vol. 17, Issue. 1, p. 146.

Yuchuan Wu Qinli Lan and Yaqin Sun 2009. Application of BP neural network fault diagnosis in solar photovoltaic system. p. 2581.

Paviglianiti, Gaetano Pierri, Francesco Caccavale, Fabrizio and Mattei, Massimiliano 2010. Robust fault detection and isolation for proprioceptive sensors of robot manipulators. Mechatronics, Vol. 20, Issue. 1, p. 162.

Bittencourt, André Carvalho Wernholt, E Sander-Tavallaey, S and Brogårdh, Torgny 2010. An extended friction model to capture load and temperature effects in robot joints. p. 6161.

Caccavale, Fabrizio Marino, Alessandro and Pierri, Francesco 2010. Sensor fault diagnosis for manipulators performing interaction tasks. p. 2121.

Hou, Ming Liang Liu, Yu Ran Xing, Shu Bin and Su, Li Yun 2011. Study of Intelligent Diagnosis System for Photoelectric Tracking Devices Based on Multiple Knowledge Representation. Advanced Materials Research, Vol. 179-180, Issue. , p. 602.

Siqueira, Adriano A. G. Terra, Marco H. and Bergerman, Marcel 2011. Robust Control of Robots. p. 177.

Bittencourt, André Carvalho Axelsson, Patrik Jung, Ylva and Brogårdh, Torgny 2011. Modeling and Identification of Wear in a Robot Joint under Temperature Uncertainties. IFAC Proceedings Volumes, Vol. 44, Issue. 1, p. 10293.

Bittencourt, André Carvalho and Gunnarsson, Svante 2012. Static Friction in a Robot Joint—Modeling and Identification of Load and Temperature Effects. Journal of Dynamic Systems, Measurement, and Control, Vol. 134, Issue. 5,

Bittencourt, André Carvalho Saarinen, Kari and Sander-Tavallaey, Shiva 2012. A Data-driven Method for Monitoring Systems that Operate Repetitively -Applications to Wear Monitoring in an Industrial Robot Joint1. IFAC Proceedings Volumes, Vol. 45, Issue. 20, p. 198.

Monirvaghefi, Hossein and Shoorehdeli, Mahdi Aliyari 2013. Model-based fault detection of a nonlinear system using interval type-2 fuzzy systems with non-singleton type-2 fuzzification. p. 231.

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A methodology for fault diagnosis in robotic systems using neural networks

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