用于具有多重时间延迟的混合动力电动汽车模式转换的非平方内部模型控制

Cheng Peng, Li Chen, D. Miao, Shenglai Fu
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引用次数: 0

摘要

多模式混合动力电动汽车的模式转换需要发动机扭矩、电机扭矩和离合器传输扭矩之间的精心协调。然而,这三种扭矩的执行延迟不同,因此很难确保模式转换性能。本文提出了一种非平方内部模型控制器(IMC),用于输入数大于输出数且每个输入具有不同致动延迟的模式转换。首先,引入 Moore-Penrose 广义逆矩阵来求解非平方矩阵的逆,使 IMC 适用。其次,采用全极点法对三个延迟模型进行近似。基于这些专门技术,推导出了 IMC 的跟踪控制器和抗干扰控制器。实验结果验证了所提控制器的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Non-square internal model control for mode transition of hybrid electric vehicles with multiple time delays
Mode transitions of multi-mode hybrid electric vehicles need careful coordination among the engine torque, motor torque, and clutch transmitted torque. However, the three torques have different actuation delays which make it difficult to ensure mode transition performance. A non-square internal model controller (IMC) is proposed in this paper for mode transition during which the input number is greater than the output number and each input has a different actuation delay. At first, the Moore-Penrose generalized inverse matrix is introduced to solve the inverse of the non-square matrix and make the IMC applicable. Secondly, the all-pole method is adopted to approximate the three delay models. Based on these specialized techniques, the tracking controller and anti-disturbance controller of the IMC are derived. Experiment results verify the effectiveness of the proposed controller.
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