Title :
Control of hysteretic systems through inverse compensation
Author :
Iyer, Ram V. ; Tan, Xiaobo
Author_Institution :
Texas Tech Univ., Lubbock, TX
Abstract :
Inverse compensation is a fundamental technique in the control of systems with hysteresis. In this expository article, we present algorithms for constructing the inverse of the Preisach operator, a hysteresis model with application to magnetics, smart materials, terrestrial hydrology, and economics. Adaptive inverse control is discussed for cases where hysteresis parameters are not known precisely. To meet the demand of highly dynamic applications, an embedded inversion approach is presented that exploits the parallelism offered by FPGAs.
Keywords :
adaptive control; ferromagnetism; field programmable gate arrays; hysteresis; magnetic fields; magnetic flux; magnetic variables control; FPGA; adaptive inverse control; hysteretic systems control; inverse compensation; magnetic field; magnetic flux density; soft-iron ring; Control systems; Energy dissipation; Hydrogen; Magnetic fields; Magnetic flux density; Magnetic hysteresis; Magnetic moments; Metastasis; Perpendicular magnetic recording; Thermodynamics;
Journal_Title :
Control Systems, IEEE
DOI :
10.1109/MCS.2008.930924
