In this study, a novel two-step methodology is applied in designing static output-feedback controllers for a class of vehicle suspension systems. Following this approach, an effective synthesis of static output-feedback controllers can be carried out by solving two consecutive linear matrix inequality optimisation problems. To illustrate the main features of the proposed design strategy, two different static output-feedback H 8 controllers are designed for a quarter-car suspension system. The first of those controllers uses the suspension deflection and the sprung mass velocity as feedback information, whereas the second one only requires the sprung mass velocity to compute the control actions. Numerical simulations indicate that, despite t...
Recent results in output-feedback controller design make possible an efficient computation of stati...
This paper offers with the theoretical and computational evaluation of optimal & robust control ...
This paper presents a method to design active suspension controllers for a 7-Degree-of-Freedom (DOF)...
In this study, a novel two-step methodology is applied in designing static output-feedback controlle...
In this study, a novel two-step methodology is applied in designing static output-feedback controlle...
In this paper, a new strategy to design static output-feedback controllers for a class of vehicle su...
Copyright © 2013 Josep Rubió-Massegu ́ et al. This is an open access article distributed under the ...
Published version of an article in the journal: Modeling, Identification and Control. Also available...
Abstract—This paper provides a direct and practical presenta-tion of a novel methodology for static ...
This paper presents an approach to design multiobjective static output feedback H2 / H.. /GH2 contro...
This paper provides a direct and practical presentation of a novel methodology for static output fee...
This paper presents a novel controller design strategy, which allows computing static output-feedbac...
A static output feedback controller is applied to the design of an active suspension model for a qua...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering; and, (S.M.)--...
The paper presents a control strategy for an automotive electronic throttle body, a device largely u...
Recent results in output-feedback controller design make possible an efficient computation of stati...
This paper offers with the theoretical and computational evaluation of optimal & robust control ...
This paper presents a method to design active suspension controllers for a 7-Degree-of-Freedom (DOF)...
In this study, a novel two-step methodology is applied in designing static output-feedback controlle...
In this study, a novel two-step methodology is applied in designing static output-feedback controlle...
In this paper, a new strategy to design static output-feedback controllers for a class of vehicle su...
Copyright © 2013 Josep Rubió-Massegu ́ et al. This is an open access article distributed under the ...
Published version of an article in the journal: Modeling, Identification and Control. Also available...
Abstract—This paper provides a direct and practical presenta-tion of a novel methodology for static ...
This paper presents an approach to design multiobjective static output feedback H2 / H.. /GH2 contro...
This paper provides a direct and practical presentation of a novel methodology for static output fee...
This paper presents a novel controller design strategy, which allows computing static output-feedbac...
A static output feedback controller is applied to the design of an active suspension model for a qua...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering; and, (S.M.)--...
The paper presents a control strategy for an automotive electronic throttle body, a device largely u...
Recent results in output-feedback controller design make possible an efficient computation of stati...
This paper offers with the theoretical and computational evaluation of optimal & robust control ...
This paper presents a method to design active suspension controllers for a 7-Degree-of-Freedom (DOF)...