The data have been analyzed within the framework of a generalized Preisach model,which includes thermal fluctuations,critical phenomenon and the temperature dependent distribution of free energy barriers.

The numerical simulations clearly replicate all of the experimental data using the same parameters based on the Preisach model.

The si mulation of the Preisach model for materials mainly tookinto account the sequences of spontaneous magnetic moment switching,and gave a detailed numerical explanation ofmagnetization structure.

To reduce the effect of hysteresis of piezoceramic actuator to the accuracy of the nano positioning stage,inverse Preisach model is used to compensate the hysteresis nonlinearity and an adaptive sliding mode controller is designed to cancel the remaining hysteresis,uncertainty of the model,and other disturbances.

In order to realize high precision tracking control of the Giant Magnetostrictive Administer(GMA),a numerical compensation approach was presented based on inverse Preisach model and a series of optimized experimental methods were discussed.

The Henkel plot and the Δm plot of a longitudinal barium ferrite hard disk and γ-Fe2O3 flexible disk were simulated by the improved Preisach-DOK model.

Research and application on Preisach hysteresis model based on ANN

To obtain the highest average magnetic strength in the effective region of a fixed magic ring,a genetic algorithm was combined with finite element analysis and Preisach hysteresis model based on the actual property simulation of permanent magnet material.