A skyhook surface sliding mode control method was proposed and applied to the control on the semi-active vehicle suspension system for its ride comfort enhancement. A two degree of freedom dynamic model of a vehicle semi-active suspension system was given, which focused on the passenger’s ride comfort perform-ance. A simulation with the given initial conditions has been devised in MATLAB/SIMULINK. The simula-tion results were showing that there was an enhanced level of ride comfort for the vehicle semi-active sus-pension system with the skyhook surface sliding mode controller
An active suspension system is important in meeting the requirements of the ride comfort and handlin...
This paper studies the applying of the controller in the suspension system of car. In order to deal ...
This paper presents an investigation on the performance of algorithms in semi active suspension syst...
A skyhook surface sliding mode control method was proposed and applied to the control on the semi-ac...
The objective of this project is to increase comfort of the vehicle’s passenger. In order to improve...
Nowadays, most modern vehicles are equipped with controlled suspension systems for improving the veh...
The semi-active suspension (SAS) system is a partial suspension device used in the vehicle system to...
This paper describes a simulation design procedure aimed to achieve improved performance of the vehi...
This paper describes the development, modeling, and testing of skyhook and MiniMax control strategie...
Vehicle suspension system plays important role in maintaining constant contact of the wheels with th...
Vehicle suspension is one of the important components to reduce vibration from the road. The vehicle...
The purpose of this project is to modeling and simulates the skyhook controller for semi-active susp...
This paper introduces the use of Particle Swarm Optimization (PSO) algorithm to tune Skyhook control...
This paper presents the comparative study on semi active suspension controlled by Skyhook and Semi A...
This research article deals with a simplified translational model of an automotive suspension system...
An active suspension system is important in meeting the requirements of the ride comfort and handlin...
This paper studies the applying of the controller in the suspension system of car. In order to deal ...
This paper presents an investigation on the performance of algorithms in semi active suspension syst...
A skyhook surface sliding mode control method was proposed and applied to the control on the semi-ac...
The objective of this project is to increase comfort of the vehicle’s passenger. In order to improve...
Nowadays, most modern vehicles are equipped with controlled suspension systems for improving the veh...
The semi-active suspension (SAS) system is a partial suspension device used in the vehicle system to...
This paper describes a simulation design procedure aimed to achieve improved performance of the vehi...
This paper describes the development, modeling, and testing of skyhook and MiniMax control strategie...
Vehicle suspension system plays important role in maintaining constant contact of the wheels with th...
Vehicle suspension is one of the important components to reduce vibration from the road. The vehicle...
The purpose of this project is to modeling and simulates the skyhook controller for semi-active susp...
This paper introduces the use of Particle Swarm Optimization (PSO) algorithm to tune Skyhook control...
This paper presents the comparative study on semi active suspension controlled by Skyhook and Semi A...
This research article deals with a simplified translational model of an automotive suspension system...
An active suspension system is important in meeting the requirements of the ride comfort and handlin...
This paper studies the applying of the controller in the suspension system of car. In order to deal ...
This paper presents an investigation on the performance of algorithms in semi active suspension syst...