The road surface's roughness is the primary source of vehicle oscillations when in motion.
An active suspension is employed to enhance road holding, ride comfort, and stability. This …

This research proposes a hybrid control algorithm to enhance smoothness in a vehicle's
motion. The control signal is synthesized from two separate controllers, Proportional Integral …

EPS systems provide superior efficiency compared to mechanical steering systems. Steering
feel and comfort are supported by an electric motor, which is controlled by an appropriate …

The stability of the car when steering is controlled by the power steering system. An optimal
integrated algorithm (OSMCPID) for controlling an electric power steering system is …

Purpose Design a novel optimal integrated control algorithm for the automotive electric
steering system to improve the stability and adaptation of the system. Design/methodology …

This work introduces an algorithm integrated from two component signals called fuzzy
sliding mode control (FSMC). This aims to ensure both road holding and ride comfort criteria …

The performance of a semi-active suspension depends on the quality of the control
algorithm. Considering the limitations of conventional PID controllers within intricate …

This article addresses the optimization of a Vehicle Active Suspension System (VASS)
through the application of a Linear Quadratic Regulator (LQR) controller. The primary …

The optimization of H∞ filtering and addressing time-varying delays in car suspension
systems has emerged as a critical research area in the pursuit of enhanced performance …

A suspension system plays a crucial role in ensuring the smoothness of a car when traveling
on roads. This paper proposes using the active suspension system equipped with a …