The paper investigates a non-fragile robust control strategy for a half-car active suspension system considering human-body dynamics. A 4-DoF uncertain vibration model of the driver’s body is combined with the car’s model in order to make the controller design procedure more accurate. The desired controller is obtained by solving a linear matrix inequality formulation. Then the performance of the active suspension system with the designed controller is compared to the passive one in both frequency and time domain simulations. Finally, the effect of the controller gain variations on the closed-loop system performance is investigated numerically
To improve road dealing with and passenger consolation of a vehicle, a suspension system is supplied...
To improve the street managing and passenger comfort of a vehicle, a suspension system is furnished....
Abstract-- The objective of control of the suspension system is to improve the ride comfort and road...
This paper presents an approach in designing a robust controller for vehicle suspensions considering...
Suspension system is used to fulfil the criteria of ride comfort and road handling. In this paper, a...
This paper offers with the theoretical and computational evaluation of optimal & robust control ...
Suspension system is used to fulfil the criteria of ride comfort and road handling. In this paper, a...
This paper offers with the theoretical and computational evaluation of optimal& robust controlproble...
Better ride comfort and controllability of vehicles are pursued by automotive industries by consider...
AbstractThe main objective of this paper is to develop improved robust control techniques for an act...
The design criteria of attenuating vertical motion of the vehicle sprung and unsprung masses and sus...
In this paper we present an approach to design the non-fragile H ∞ controller for active vehicle sus...
This chapter presents the study of robust active control of an integrated vehicle suspension system ...
This research article deals with a simplified translational model of an automotive suspension system...
This paper affords the design and improvement of a semi-active suspension system for an automobile. ...
To improve road dealing with and passenger consolation of a vehicle, a suspension system is supplied...
To improve the street managing and passenger comfort of a vehicle, a suspension system is furnished....
Abstract-- The objective of control of the suspension system is to improve the ride comfort and road...
This paper presents an approach in designing a robust controller for vehicle suspensions considering...
Suspension system is used to fulfil the criteria of ride comfort and road handling. In this paper, a...
This paper offers with the theoretical and computational evaluation of optimal & robust control ...
Suspension system is used to fulfil the criteria of ride comfort and road handling. In this paper, a...
This paper offers with the theoretical and computational evaluation of optimal& robust controlproble...
Better ride comfort and controllability of vehicles are pursued by automotive industries by consider...
AbstractThe main objective of this paper is to develop improved robust control techniques for an act...
The design criteria of attenuating vertical motion of the vehicle sprung and unsprung masses and sus...
In this paper we present an approach to design the non-fragile H ∞ controller for active vehicle sus...
This chapter presents the study of robust active control of an integrated vehicle suspension system ...
This research article deals with a simplified translational model of an automotive suspension system...
This paper affords the design and improvement of a semi-active suspension system for an automobile. ...
To improve road dealing with and passenger consolation of a vehicle, a suspension system is supplied...
To improve the street managing and passenger comfort of a vehicle, a suspension system is furnished....
Abstract-- The objective of control of the suspension system is to improve the ride comfort and road...