This article presents two design strategies for an active rear wheel steering control system. The first method is a standard design procedure based on the well-known single track model. The aim of the feedback loop is to track a reference yaw rate in order to improve the handling behaviour. Unfortunately, a reasonable specification of the reference yaw rate proves to be a nontrivial task. A second approach avoids this drawback. The structure of the controller is regarded as a virtual mass-spring-damper system with adjustable parameters. Due to the high abstraction level of this method, the controller parameters can be tuned intuitively. Experiments with a prototype vehicle illustrate the effectiveness of the two proposed methodologies.
Improving vehicle dynamics by active rear wheel steering systems
Vehicle System Dynamics ; 47 , 12 ; 1551-1564
2009-12-01
14 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Unbekannt
Improving vehicle dynamics by active rear wheel steering systems
Tema Archiv | 2009
|Improving vehicle dynamics by active rear wheel steering systems
Kraftfahrwesen | 2009
|Improving vehicle dynamics by active rear wheel steering systems
Online Contents | 2009
|