An investigation is made to the multiobjective suspension control problem for a heavy off-road vehicle based on mixed H2/H ∞ optimal control synthesis. A design procedure is explained based on a performance trade-off curve in order to solve this problem. In comparison with other control synthesis results we have obtained, it is shown that by combining both techniques into one mixed norm optimization framework, it is possible to exploit the strengths of each norm to provide better performance for the given hydropneumatic suspensions.
Mixed H2/H∞Controller Design for Active Hydro-pneumatic Suspensions
Sae Technical Papers
2005 SAE Commercial Vehicle Engineering Conference ; 2005
2005-11-01
Conference paper
English
Design and Development of an Electric Controller for Active Hydro-pneumatic Suspension System
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