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An iterative dynamic programming approach for the global optimal control of hybrid electric vehicles under real-time constraints

机译：实时约束下混合动力汽车全局最优控制的迭代动态规划方法

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Dynamic programming is a well-known method to evaluate and generate the optimal control of hybrid electric vehicles (HEV) on given driving cycles. Because of its computational complexity the method per se is not suitable for realtime implementation especially with higher dimensions. In this paper an iterative dynamic programming (IDP) approach is proposed to reduce computing time by converging the optimal control strategy iteratively within an adaptive multidimensional search space. The velocity is investigated as a new degree of freedom to include the influence of a variable driving trajectory. The approach is implemented as a nonlinear model predictive controller, with the main focus on savings in computing time.

机译：动态编程是一种众所周知的方法，用于在给定的驾驶周期上评估和产生混合动力电动汽车（HEV）的最佳控制。由于其计算复杂性，该方法本身不适合于实时实现，尤其是在较大尺寸的情况下。本文提出了一种迭代动态规划（IDP）方法，通过在自适应多维搜索空间内迭代地收敛最优控制策略来减少计算时间。速度作为一种新的自由度进行了研究，其中包括了可变驾驶轨迹的影响。该方法被实现为非线性模型预测控制器，主要侧重于节省计算时间。

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《IEEE Intelligent Vehicles Symposium》|2013年|592-597|共6页
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Wahl Hans-Georg; Gauterin Frank;
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4. An iterative dynamic programming approach for the global optimal control of hybrid electric vehicles under real-time constraints [C] . Wahl Hans-Georg, Gauterin Frank IEEE Intelligent Vehicles Symposium . 2013

机译：一种迭代动态规划方法，用于实时约束下混合动力汽车的全球优化控制
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机译：迭代动态规划，对等机构约束的最优控制问题及其在电动车辆最优生态驾驶控制的应用

An iterative dynamic programming approach for the global optimal control of hybrid electric vehicles under real-time constraints

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