Add to ORKGThis study demonstrates a new nonlinear controller design methodology applicable to automotive suspension systems. It enhances the ability of the designer to tackle the complex design problem of a controller for a computer-controlled suspension. Based on the principles of optimal control, it permits the use of more general system models and cost functions than the standard linear optimal design techniques and hence, increases the freedom of the designer. It implements the control with an optimal, nonlinear feedback law and is shown to have the potential to improve vehicle performance. [Continues.
Here we shall consider a reasonably realistic suspension ride model, incorporating actuator dynamics...
The paper presents the virtual model of the active suspension system used for improving the dynamic ...
This article applies three different control techniques to the design of a quarter-car semiactive su...
A novel non-linear design method based on linear quadratic optimal control theory is presented that ...
In the design of suspensions for passenger cars, it is time-consuming to find a solution that works ...
A number of `second generation' suspension controller design methods are reviewed in the context of ...
Active suspension systems ease the conflict between comfort and handling. This requires the use of s...
We propose a new nonlinear backstepping design for active suspension systems which aims to improve t...
This paper studies the linear feedback control strategies for nonlinear systems. Asymptotic stabilit...
This paper describes the mathematical modeling and control of a nonlinear active suspension system f...
The purpose of this paper is to investigate the performance of a quarter car nonlinear active suspen...
Abstract:- The main purpose of this paper is to report on development of a new robust and high perfo...
A systematic computer-aided approach provides a versatile setting for the control engineer to overco...
In this study, a novel two-step methodology is applied in designing static output-feedback controlle...
In this paper an improved nonlinear control law is applied to active suspension systems which are as...
Here we shall consider a reasonably realistic suspension ride model, incorporating actuator dynamics...
The paper presents the virtual model of the active suspension system used for improving the dynamic ...
This article applies three different control techniques to the design of a quarter-car semiactive su...
A novel non-linear design method based on linear quadratic optimal control theory is presented that ...
In the design of suspensions for passenger cars, it is time-consuming to find a solution that works ...
A number of `second generation' suspension controller design methods are reviewed in the context of ...
Active suspension systems ease the conflict between comfort and handling. This requires the use of s...
We propose a new nonlinear backstepping design for active suspension systems which aims to improve t...
This paper studies the linear feedback control strategies for nonlinear systems. Asymptotic stabilit...
This paper describes the mathematical modeling and control of a nonlinear active suspension system f...
The purpose of this paper is to investigate the performance of a quarter car nonlinear active suspen...
Abstract:- The main purpose of this paper is to report on development of a new robust and high perfo...
A systematic computer-aided approach provides a versatile setting for the control engineer to overco...
In this study, a novel two-step methodology is applied in designing static output-feedback controlle...
In this paper an improved nonlinear control law is applied to active suspension systems which are as...
Here we shall consider a reasonably realistic suspension ride model, incorporating actuator dynamics...
The paper presents the virtual model of the active suspension system used for improving the dynamic ...
This article applies three different control techniques to the design of a quarter-car semiactive su...