A Hybrid Fuzzy Sliding Mode Controller for Time-delay System
- Resource Type
- Authors
- N. K. Yadav; K. Singh
- Source
- International Journal of Artificial Intelligence & Applications. 4:67-75
- Subject
- Fuzzy electronics
Adaptive neuro fuzzy inference system
Neuro-fuzzy
Control theory
Computer science
Fuzzy number
Fuzzy set operations
Fuzzy control system
Defuzzification
Fuzzy logic
- Language
- ISSN
- 0975-900X
0976-2191
This paper is concerned with the problems of stability analysis and stabilization control design for a class of discrete-time T-S fuzzy systems with state-delay for multi-input and multi-output. The nonlinear fuzzy controller helps to overcome the problems of the ill - defined model of the systems, which are creating the undesirable performance. . Here sliding surface is being designed for error function of nonlinear system and sliding mode control is being designed here. The switching surface is being proven for its asymptotic stability. The generated error signal and change of error signal will be utilized for application heuristic knowledge to design the rule base in the fuzzy logic control and fuzzy logic controller is designed here. The proposed technique also brings in a systematic approach to the fuzzy logic control, thus overcoming lots of heuristics that were in vogue with earlier fuzzy logic applications. Fuzzy logic control has been applied to a second order model of a roll autopilot. It has been found that the proposed scheme is robust and works satisfactorily even when parameters are perturbed as much as fifteen percent of their geometric mean value. This designed algorithm will be more effective for highly unstable nonlinear systems such as aerospace system.