Multi-objective parameter optimization strategy based on engine coordinated control for improving shifting quality

Xianhe Shang, Fujun Zhang, Jian Wang, Xu Wang, Liguo Wei
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Abstract

In order to address the poor shifting quality issue of a certain model of heavy-duty vehicles, a multi-objective parameter optimization strategy based on engine coordinated control is proposed. This strategy aims to improve shifting quality by reducing the sliding friction work and impact during the shifting process. The Non-Dominated Sorting Genetic Algorithm II (NSGA-II) is employed to perform multi-objective optimization on the coordinated control parameters, which include external control torque of the engine, start of fuel cut-off timing, and duration of fuel cut-off. By comparing the performance of different parameter combinations in terms of sliding friction work and impact, the optimal parameter combination is determined. Through bench testing verification, it has been demonstrated that utilizing the optimized parameters for engine coordinated control during the torque phase of the shifting process can significantly enhance shifting quality. This strategy provides an effective solution for addressing shifting quality issues.
基于发动机协调控制的多目标参数优化策略改善换挡质量
针对某重型车辆换挡质量差的问题,提出了一种基于发动机协调控制的多目标参数优化策略。该策略旨在通过减少换挡过程中的滑动摩擦功和影响来提高换挡质量。采用非支配排序遗传算法 II(NSGA-II)对协调控制参数进行多目标优化,这些参数包括发动机外部控制扭矩、燃油切断起始时间和燃油切断持续时间。通过比较不同参数组合在滑动摩擦功和影响方面的性能,确定了最佳参数组合。通过台架试验验证,在换挡过程的扭矩阶段利用优化参数进行发动机协调控制,可以显著提高换挡质量。这一策略为解决换挡质量问题提供了有效的解决方案。
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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