轮内电机与电磁悬架全驱电动汽车平顺性混合控制

Lukas Hott, V. Ivanov, K. Augsburg, Vincenzo Ricciardi, M. Dhaens, M. A. Sakka, K. Praet, J. V. Molina
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引用次数: 3

摘要

本文提出了一种用于提高轮毂电机和电磁悬架电动汽车平顺性的控制器。综合使用IWMs和AS来增加乘坐舒适性被称为乘坐混合(RB)。讨论了集成控制的目的、总体思想和概念。Ride Blending控制器基于多层分层控制体系结构。为了在执行器之间连续分配需求,控制使用成本函数优化,其中定义了当前时间步长的理想控制参数。解释了该功能的每个组件的目标,并描述了每个组件的结构。乘坐混合控制的使用,然后演示了各种驾驶演习,以显示功能和乘坐质量的改善。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Ride Blending Control for AWD Electric Vehicle with In-Wheel Motors and Electromagnetic Suspension
This paper presents a controller for enhancing the ride comfort of electric vehicles with in-wheel motors (IWM) and electromagnetic suspensions (AS). The combined use of IWMs and AS to increase the ride comfort is referred to as Ride Blending (RB). The purpose of this integrated control, its general idea and concept are discussed. The Ride Blending controller is based on a multi-layer hierarchical control architecture. To continuously allocate the demand between the actuators, the control makes use of a cost function optimisation where the ideal control parameters for the current time step are defined. The goal of each component of this function is explained and the structure of each one is described. The use of the ride blending control is then demonstrated on various driving manoeuvres to show the functionality and the ride quality improvement.
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