Identification of Piezomicropositioning Hammerstein Systems with Generalized Prandtl-Ishlinskii Hysteresis Nonlinearities

We introduce an algorithm to identify the nonlinear dynamics of a class of smart micropositioning systems, which is modeled as a Hammerstein system, that is, a cascade of a generalized Prandtl-Ishlinskii (GPI) hysteresis nonlinearity with a linear dynamic system. The GPI hysteresis nonlinearity, the linear dynamic system, and the intermediate signal between them are assumed to be unknown. The first stage in the algorithm is to identify the linear dynamic plant from measurements of the input and output of the Hammerstein system. Then, the unknown intermediate signal is reconstructed using the output and the identified model of the linear system. Finally, the GPI nonlinearity is estimated using the input and the reconstructed intermediate signal.