Leseprobe
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Methods of Developing Sliding Mode Controllers
Reihaneh Kardehi Moghaddam, Mostafa Rabbani
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Naturwissenschaften, Medizin, Informatik, Technik / Elektronik, Elektrotechnik, Nachrichtentechnik
Beschreibung
Comprehensive, fast-access guide to different types of sliding mode controllers and their programming and simulation in MATLAB and Simulink
Methods of Developing Sliding Mode Controllers delivers a practical review of sliding mode controllers (SMCs) and their challenges with coverage of related theorems, stability analysis, and how to program and simulate SMCs in MATLAB and Simulink. The book details the latest methods of their development and their applications in the automotive, aerospace, and robotics industries.
Initial chapters detail a range of different types of controllers. A combination of sliding and backstepping control is introduced and simulated and the phenomenon of chattering and effective solutions to reduce it are provided, along with suitable examples and analytical tables of the results. The final two chapters are related to fixed-time and event-triggered SMCs. Extensive Matlab/Simulink supported examples and simulation program code/block diagrams are included throughout.
Methods of Developing Sliding Mode Controllers: Design and Matlab Simulation explores sample topics including:
- Classic SMCs, covering variable structures, including relays and feedback control with switching gains, as well as controller design and theoretical foundations
- Terminal SMCs, covering nonsingular and fast variations, dynamic SMCs, and fuzzy SMCs, covering fuzzy approximation and equivalent control as well as indirect design
- Super twisting SMCs, adaptive SMCs, and backstepping SMCs, covering the backstepping method and chaotic duffing oscillator equations
- Sign, Epsilon-sign, saturation, hyperbolic tangent, and generalized hyperbolic tangent functions for chatter reduction
Methods of Developing Sliding Mode Controllers: Design and Matlab Simulation is a concise yet comprehensive and highly practical reference on the subject for graduate/postgraduate students in electrical engineering, mechanical engineering, and biomedical engineering along with academics and professionals in fields related to SMCs.
Kundenbewertungen
Adaptive SMCs, Super twisting SMCs, SMC design, Dynamic SMCs, Fuzzy approximation, Simulink, Fast nonsingular SMC, Inverted pendulum, Terminal SMCs, Sliding mode controller, Sliding surface, Event-triggering controller, Fixed time, Matlab programming, Backstepping SMCs, ----, Lyapunov, Classic SMCs, Nonlinear systems, Fuzzy SMCs