Electromagnetic levitation is a cutting-edge technology with a wide range of applications in
several fields. Because of the increasing demand for this technology, an in-depth …

This paper provides an in-depth assessment of Active Magnetic Bearings (AMBs), which are
electromagnetic bearings powered by power electronic components for high-speed …

Magnetic Levitation is a process in which an object is suspended with the support of the
magnetic field. Despite being an unstable system, Magnetic Levitation Systems (MAGLEV) …

Nonlinear system control belongs to advanced control problems important for real plants
control design. Various techniques have been developed in this field. In this paper we …

This paper proposes two control techniques to provide robust tracking for magnetic levitation
systems (MLS): model-free control (MFC) and robust proportional-integral-derivative (PID) …

Abstract Design, tuning and implementation of various control structures, such as one-
degree of freedom (DOF) and two-DOF structures of both integer-order and fractional-order …

This paper contributes toward research on the control of the magnetic levitation plant,
representing a typical nonlinear unstable system that can be controlled by various methods …

Herein, robust pole placement controller design for linear uncertain discrete time dynamic
systems is addressed. The adopted approach uses the so called “D regions” where the …

In this paper, the teaching–learning-based optimization-based functional link artificial neural
network (FLANN) has been proposed for the real-time identification of Maglev system. This …

In this work, a modified Smith predictor–based sliding mode control (SP-SMC) method is
proposed for unstable plus time-delay processes. Sliding mode control has a discontinuous …