This work presents nonlinear control algorithms for a benchmark mechanical system actuated by different types of electric machinery, emphasizing system stability and robustness - pivotal in the development of optimal position trajectory controllers for common motors.;College or university bookstores may order five or more copies at a special student price, available on request from Marcel Dekker.
"The series will stress applications issues, and not just the mathematics of control engineering. It will provide texts that not only contain an exposé of new and well-established techniques, but also will present detailed examples of the application of these methods to the solution of real-world problems. . . This new series will present books that draw on expertise from both the academic world and the applications domains, and will be useful not only as academically recommended course texts but also as handbooks for practitioners in many applications domains. "
---Neil Munro, Professor of Applied Control Engineering The Control Systems Centre, Department of Electrical Engineering and Electronics The University of Manchester Institute of Science and Technology Manchester, England
Mathematical background; BDC motor (FSFB); PMS motor (FSFB); BLDC motor (FSFB); SR motor (FRSB); induction motor (FSFB); BDC motor (OFB); PMS motor (OFB); BLDC motor (OFB); SR and BLDC motor (PSFB); induction motor PSFB-I; adaptive PSFB control; sensorless control of the SEDC; induction motor PSFB-II.