Robust Adaptive Predictive Fault-Tolerant Control Linked with Fault Diagnosis System Applied On a Nonlinear Chemical Process

ZUMOFFEN, DAVID; BASUALDO, MARTA; JORDAN, MARIO ALBERTO; CECATTO, ALBERTO

Manchester Grand Hyatt, San Diego, CA, USA

Conferencia; 45th. IEEE Conf. on Dec. and Control (CDC 2006); 2006

IEEE, CSS

In this paper, a new fault-tolerant control (FTC) strategy is proposed to compensate for the effects of faults and to improve the overall performance  or nonlinear stable plants. The FTC approach involves a commutation of a linear timevarying robust filter in the feedback path of  the control loop in synchronization with an adaptive predictive controller. The decision of which mode has to work is based on specific conditions accounted in the control algorithm. In addition, the faulttolerance ability of the controller has been further improved by a fault-diagnosis system (FDS) designed for detecting two fault types: specific bias at the sensor and time delay at the actuator. The FDS is developed by using wavelet decomposition and identification techniques respectively. An implementation on a continuous stirred tank reactor (CSTR) with jacket is presented as a simulation example for analyzing the effectiveness of the FTC linked with FDS methodology proposed here.