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Optimization of Rule-Based Control Strategy for a Hydraulic-Electric Hybrid Light Urban Vehicle Based on Dynamic Programming

机译:基于动态规划的液压电动灯城车辆的规则控制策略优化

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This paper presents a low-cost path for extending the range of small urban pure electric vehicles by hydraulic hybridization. Energy management strategies are investigated to improve the electric range, component efficiencies, as well as battery usable capacity. As a starting point, a rule-based control strategy is derived by analysis of synergistic effects of lead-acid batteries, high efficient operating region of DC motor and the hydraulic pump/motor. Then, Dynamic Programming (DP) is used as a benchmark to find the optimal control trajectories for DC motor and Hydraulic Pump/Motor. Implementable rules are derived by studying the optimal control trajectories from DP. With new improved rules implemented, simulation results show electric range improvement due to increased battery usable capacity and higher average DC motor operating efficiency.
机译:本文提出了一种低成本的路径,通过液压杂交扩展小城市纯电动车辆的范围。调查能源管理策略以改善电力范围,部件效率,以及电池可用容量。作为起点,通过分析铅酸电池的协同效应,直流电电机和液压泵/电动机的协同效应来得出基于规则的控制策略。然后,动态编程(DP)用作基准,以找到直流电动机和液压泵/电机的最佳控制轨迹。通过研究DP的最佳控制轨迹来得出可实现的规则。利用新的改进规则实施,仿真结果表明电池可用容量增加和平均直流电机运行效率提高电气范围。

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