This paper contributes to the design of active suspension systems, by the use of spatial vehicle model, without filtered feedback of the control system. A method of stochastic parameters optimisation has been utilized for the optimisation of the parameters of active suspension. The optimisation objective was simultaneous minimization of sprung mass vibration and standard deviation of forces in tire-to-ground contact area and vehicle handling
The design criteria of attenuating vertical motion of the vehicle sprung and unsprung masses and sus...
Authors' research is devoted to develop new and effective methods to design control strategies for n...
Vehicle suspension optimization for various road classes travelled at different velocities is perfor...
This paper contributes to the design of active suspension systems, by the use of spatial vehicle mod...
Optimal control schemes are usually employed to minimize different performance criteria of active su...
This paper presents an optimum concept to design ‘‘road-friendly’ ’ vehicles with the recognition of...
The purpose of the project is to design controller for active suspension using optimal control metho...
The conflict between ride and handling in a conventional passive suspension system is extremely diff...
This paper introduces a design and optimization procedure for active and semi-active non-linear susp...
This paper handles the synergy between the design and control optimization problem for an active car...
This is the second part of a two-part paper. In this part, a systematic approach based on the stocha...
The object of the paper is to provide a method which is able to design optimal dynamic ...
This master thesis work shows the capability of active and fully-active suspensions to improve the p...
Active and semi-active suspension systems are widely diffused into the automotive industry. Most of ...
This work proposes the study of automobile active suspension system for the purpose of improving rid...
The design criteria of attenuating vertical motion of the vehicle sprung and unsprung masses and sus...
Authors' research is devoted to develop new and effective methods to design control strategies for n...
Vehicle suspension optimization for various road classes travelled at different velocities is perfor...
This paper contributes to the design of active suspension systems, by the use of spatial vehicle mod...
Optimal control schemes are usually employed to minimize different performance criteria of active su...
This paper presents an optimum concept to design ‘‘road-friendly’ ’ vehicles with the recognition of...
The purpose of the project is to design controller for active suspension using optimal control metho...
The conflict between ride and handling in a conventional passive suspension system is extremely diff...
This paper introduces a design and optimization procedure for active and semi-active non-linear susp...
This paper handles the synergy between the design and control optimization problem for an active car...
This is the second part of a two-part paper. In this part, a systematic approach based on the stocha...
The object of the paper is to provide a method which is able to design optimal dynamic ...
This master thesis work shows the capability of active and fully-active suspensions to improve the p...
Active and semi-active suspension systems are widely diffused into the automotive industry. Most of ...
This work proposes the study of automobile active suspension system for the purpose of improving rid...
The design criteria of attenuating vertical motion of the vehicle sprung and unsprung masses and sus...
Authors' research is devoted to develop new and effective methods to design control strategies for n...
Vehicle suspension optimization for various road classes travelled at different velocities is perfor...