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https://doi.org/10.1504/ijvd.2001.001941
Copy DOIPublication Date: Jan 1, 2001 | |
Citations: 5 |
The mechanical model of a three-axle vehicle for front and rear wheels steering is established. The transfer functions of yaw rate, sideslip angle and lateral acceleration to front and rear wheel angles are derived under different feed-forward and feedback control strategies. The control laws are discussed in order to make the sideslip angle of steady state and transient state keep to zero during vehicle steering. Simulation results show that the yaw rate and lateral acceleration response characteristics of the steering wheel angle of a three-axle vehicle are satisfactory when the body sideslip angle in the transient state is controlled at zero. Based on the control strategy and control target for a three-axle vehicle the manoeuverability at low-speed and lateral stability at high-speed are improved. The relationship between manoeuverability and stability is good as expressed by the manoeuverability factor and stability factor when introduced.
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