Hysteresis is a nonlinear phenomenon observed in the dynamic response behavior of
numerous structural systems under high intensity cyclic or random loading, as well as in …

2. Objectives The main objective of this proposed Special Issue is to collect contributions
from active researchers in the field of hysteresis and from structural, electrical, materials, and …

Hysteresis is a natural phenomenon that widely exists in structural and mechanical systems.
The characteristics of structural hysteretic behaviors are complicated. Therefore, numerous …

Hysteresis is a highly nonlinear phenomenon, which is observed in different branches of
sciences. The behavior of the hysteretic systems is usually controlled by some …

Hysteresis of piezoelectric actuators is rate-dependent at high frequencies, but most of the
hysteresis models are rate-independent and cannot describe the rate-dependent hysteresis …

The actuating precision of a micro-positioning system, driven by a magnetostrictive actuator,
is adversely limited by its nonlinearities, particularly the output-input hysteresis, which are …

A generalized Prandtl–Ishlinskii model is proposed for characterizing the rate-dependent
hysteresis behavior of smart actuators. A rate-dependent play operator is formulated and …

Piezoelectric, magnetostrictive, and shape memory alloy actuators are gaining importance in
high-frequency precision applications constrained by space. Their intrinsic hysteretic …

Abstract A generalized Prandtl–Ishlinskii (PI) model has been proposed in Al Janaideh et al
(2009 Smart Mater. Struct. 18 045001) to describe the asymmetric hysteresis in smart …

Abstract The Prandtl-Ishlinskii (PI) model and the Preisach model are commonly used
models to predict the hysteretic behaviors in smart materials-based actuators. The …