The scientific community has recently seen a fast-growing number of publications tackling
the topic of fractional-order controllers in general, with a focus on the fractional order PID …

Active suspension system has become an integral part of a passenger vehicle as ride
comfort is now an essential parameter in the performance of a vehicle. The active …

This work presents a generic two-degree-of-freedom fractional order fuzzy PI-D (2DOF
FOFPI-D) controller dedicated to a class of nonlinear systems. The control law for proposed …

In this paper, through purposely employing beneficial nonlinear stiffness and damping with a
constructed bioinspired reference model, a novel saturated PD with sliding mode control …

As known to all, it is a challenging task to solve the delay of a controllable suspension
system under the transient road. Thus, how to e ectively and low-costly acquire road …

In this study, a fractional order fuzzy proportional‐integral‐derivative (FOFPID) controller is
designed for load frequency control of four‐area interconnected power systems. The model …

In order to improve the dynamic quality of traditional sliding mode control for an active
suspension system, an optimal sliding mode control (OSMC) based on a genetic algorithm …

This paper presents an in-wheel vibration absorber for in-wheel-motor electric vehicles (IWM
EVs), and a corresponding control strategy to improve vehicle ride comfort. The proposed in …

By analyzing the shortcomings of the traditional fuzzy PID (Abbreviation for Proportional,
Integral and Differential) control system (FPID), a multiple fuzzy PID suspension control …

The transduction of solar energy to electrical energy requires Solar Photovoltaic (SPV)
systems, which must be operated at Maximum Power Point (MPP) to extract maximum …