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引用次数: 0
摘要
受近年来勘探开发双控制(dual control for exploration and development, DCEE)研究的启发,本文提出了一种基于双控制的自适应巡航控制方法。与其他自适应控制器不同的是,本文提出的双模型预测控制不仅利用当前和未来的输入来保持前导车辆与自我车辆之间的车头距恒定,而且还试图通过主动学习周围环境来减少状态估计的不确定性,从而使估计参数收敛更快,具有更好的参考跟踪性能。仿真结果表明,对于未知路面坡度的自适应巡航控制,所提出的双控制框架优于传统的带有干扰观测器的模型预测控制器。
Dual MPC for Adaptive Cruise Control with Unknown Road Profile
Inspired by the recent work on dual control for exploration and exploitation (DCEE), this paper presents a solution to adaptive cruise control problems via a dual control approach. Different from other adaptive controllers, the proposed dual model predictive control not only uses the current and future inputs to keep a constant headway distance between the leading vehicle and the ego vehicle but also tries to reduce the uncertainty of state estimation by actively learning the surrounding environment as well, which leads to faster convergence of the estimated parameters and better reference tracking performance. The simulation results demonstrate that the proposed dual control framework outperforms a conventional model predictive controller with disturbance observer for adaptive cruise control with unknown road grade.
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