Safe, Learning-Based MPC for Highway Driving under Lane-Change Uncertainty: A Distributionally Robust Approach

Artif. Intell. Pub Date : 2022-06-27 DOI:10.48550/arXiv.2206.13319

Mathijs Schuurmans, Alexander Katriniok, Chris Meissen, H. E. Tseng, Panagiotis Patrinos

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引用次数: 7

Abstract

We present a case study applying learning-based distributionally robust model predictive control to highway motion planning under stochastic uncertainty of the lane change behavior of surrounding road users. The dynamics of road users are modelled using Markov jump systems, in which the switching variable describes the desired lane of the vehicle under consideration and the continuous state describes the pose and velocity of the vehicles. We assume the switching probabilities of the underlying Markov chain to be unknown. As the vehicle is observed and thus, samples from the Markov chain are drawn, the transition probabilities are estimated along with an ambiguity set which accounts for misestimations of these probabilities. Correspondingly, a distributionally robust optimal control problem is formulated over a scenario tree, and solved in receding horizon. As a result, a motion planning procedure is obtained which through observation of the target vehicle gradually becomes less conservative while avoiding overconfidence in estimates obtained from small sample sizes. We present an extensive numerical case study, comparing the effects of several different design aspects on the controller performance and safety.

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车道变化不确定性下的安全、基于学习的MPC高速公路驾驶:一种分布鲁棒方法

本文研究了基于学习的分布鲁棒模型预测控制在随机不确定性下的高速公路运动规划中的应用。使用马尔可夫跳跃系统对道路使用者的动力学建模，其中切换变量描述了所考虑车辆的期望车道，连续状态描述了车辆的姿态和速度。我们假设底层马尔可夫链的切换概率是未知的。由于车辆被观察到，因此，从马尔可夫链中抽取样本，估计过渡概率以及一个模糊集，该模糊集解释了这些概率的错误估计。相应地，在一个场景树上构造了一个分布鲁棒最优控制问题，并在后退视界上求解。通过对目标车辆的观察，得到了一种运动规划过程，该过程逐渐变得不那么保守，同时避免了对小样本量估计的过度自信。我们提出了一个广泛的数值案例研究，比较了几个不同的设计方面对控制器性能和安全性的影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Artif. Intell.

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