1. A semi-active suspension control algorithm for vehicle comprehensive vertical dynamics performance.
- Author
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Nie, Shida, Zhuang, Ye, Liu, Weiping, and Chen, Fan
- Subjects
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CONTROL theory (Engineering) , *FREQUENCY selective surfaces , *INVARIANTS (Mathematics) , *ALGORITHMS , *PERFORMANCE evaluation - Abstract
Comprehensive performance of the vehicle, including ride qualities and road-holding, is essentially of great value in practice. Many up-to-date semi-active control algorithms improve vehicle dynamics performance effectively. However, it is hard to improve comprehensive performance for the conflict between ride qualities and road-holding around the second-order resonance. Hence, a new control algorithm is proposed to achieve a good trade-off between ride qualities and road-holding. In this paper, the properties of the invariant points are analysed, which gives an insight into the performance conflicting around the second-order resonance. Based on it, a new control algorithm is proposed. The algorithm employs a novel frequency selector to balance suspension ride and handling performance by adopting a medium damping around the second-order resonance. The results of this study show that the proposed control algorithm could improve the performance of ride qualities and suspension working space up to 18.3% and 8.2%, respectively, with little loss of road-holding compared to the passive suspension. Consequently, the comprehensive performance can be improved by 6.6%. Hence, the proposed algorithm is of great potential to be implemented in practice. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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