Active suspension is commonly considered under the framework of vertical vehicle dynamics control aimed at improvements in ride comfort. This paper uses a collocation-type control variable optimisation tool to investigate to which extent the fully active suspension (FAS) application can be broaden to the task of vehicle handling/cornering control. The optimisation approach is firstly applied to solely FAS actuator configurations and three types of double lane-change manoeuvres. The obtained optimisation results are used to gain insights into different control mechanisms that are used by FAS to improve the handling performance in terms of path following error reduction. For the same manoeuvres the FAS performance is compared with the performance of different active steering and active differential actuators. The optimisation study is finally extended to combined FAS and active front- and/or rear-steering configurations to investigate if they can use their complementary control authorities (over the vertical and lateral vehicle dynamics, respectively) to further improve the handling performance.
Optimisation of active suspension control inputs for improved vehicle handling performance
Vehicle system dynamics ; 54 , 11
2016
Aufsatz (Zeitschrift)
Englisch
Optimisation of active suspension control inputs for improved vehicle handling performance
Taylor & Francis Verlag | 2016
|Optimisation of active suspension control inputs for improved vehicle handling performance
Kraftfahrwesen | 2016
|Optimisation of active suspension control inputs for improved vehicle ride performance
Online Contents | 2016
|Optimisation of active suspension control inputs for improved vehicle ride performance
Taylor & Francis Verlag | 2016
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Taylor & Francis Verlag | 2018
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