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Combination of Active Braking and Torque Vectoring in Electronic Stability Control for Four-Wheel Independent Drive Electric Vehicle

机译：四轮独立驱动电动汽车电子稳定控制中主动制动与转矩矢量的结合

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Torque vectoring (TV) is a widely used technique to achieve stability control for independent wheel drive electric vehicle due to its velocity maintaining performance. However, in case of critical and emergency situations, active braking (AB) performs better in improving handling improvement. To improve overall handling performance in the critical situation, combination of TV and AB is introduced in this paper. Yaw rate and vehicle sideslip rate are used as a control parameter in PID controller to determine motor torques and brake pressures. Brake force is applied at each wheel whenever motor brake torque is activated. With the contribution of AB, overall required motor torques for countering yaw moment are drastically reduced in four-wheel independent drive electric vehicle while similar stability performance can be achieved.

机译：转矩矢量（TV）由于其速度保持性能而被广泛用于实现独立轮驱动电动车辆的稳定性控制。但是，在紧急情况下，主动制动（AB）在改善操纵性能方面表现更好。为了提高紧急情况下的整体处理性能，本文介绍了TV和AB的组合。偏航率和车辆侧滑率在PID控制器中用作控制参数，以确定电动机转矩和制动压力。只要激活了电动机制动扭矩，就会在每个车轮上施加制动力。借助AB的贡献，在独立于四轮驱动的电动汽车中，用于抵抗偏航力矩的总体所需电动机扭矩得到了大幅降低，同时可获得类似的稳定性能。

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来源
《Research, Invention, and Innovation Congress》|2019年|1-5|共5页
会议地点 Bangkok(TH)
作者
Sitthichok Sitthiracha; Saiprasit Koetniyom; Gridsada Phanomchoeng;
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作者单位

Automotive Safety and Assessment Engineering Research Center The Sirindhorn International Thai-German Graduate School of Engineering King Mongkut's University of Technology North Bangkok Bangkok Thailand;

Automotive Safety and Assessment Engineering Res;

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braking; electric vehicles; road vehicles; stability; three-term control; torque control; vehicle dynamics; wheels;

机译：制动电动汽车；公路车辆；稳定性;三项控制；扭矩控制车辆动力学；车轮;

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1. Vehicle stability control with regenerative braking and electronic brake force distribution for a four-wheel drive hybrid electric vehicle [J] . Donghyun Kim, Hyunsoo Kim Proceedings of the Institution of Mechanical Engineers, Part D. Journal of Automobile Engineering . 2006,第d6期

机译：具有四轮驱动混合动力电动汽车再生制动和电子制动力分配的车辆稳定性控制
2. Electronic Stability Control Based on Motor Driving and Braking Torque Distribution for a Four In-Wheel Motor Drive Electric Vehicle [J] . Li Zhai, Tianmin Sun, Jie Wang IEEE Transactions on Vehicular Technology . 2016,第6期

机译：基于电动机驱动和制动转矩分配的四轮电动机驱动电动汽车电子稳定性控制
3. A state observation and torque compensation-based acceleration slip regulation control approach for a four-wheel independent drive electric vehicle under slope driving [J] . Guo Luole, Xu Hongbing, Zou Jianxiao, Proceedings of the Institution of Mechanical Engineers, Part D. Journal of Automobile Engineering . 2020,第12期

机译：斜坡下四轮独立驱动电动车辆的状态观测和基于扭矩补偿的加速度防滑方法
4. Combination of Active Braking and Torque Vectoring in Electronic Stability Control for Four-Wheel Independent Drive Electric Vehicle [C] . Sitthichok Sitthiracha, Saiprasit Koetniyom, Gridsada Phanomchoeng Research, Invention, and Innovation Congress . 2019

机译：四轮独立驱动电动汽车电子稳定控制中的主动制动与扭矩矢量的组合
5. Dynamic Modeling for the Path Tracking Control of a Four-Wheel Independent-Drive, Four-Wheel Independent-Steer Autonomous Ground Vehicle [D] . Klindworth, Karl Emerson. 2017

机译：四轮独立驱动路径跟踪控制的动态建模，四轮独立转向自主地车辆
6. Estimation of Longitudinal Force and Sideslip Angle for Intelligent Four-Wheel Independent Drive Electric Vehicles by Observer Iteration and Information Fusion [O] . Te Chen, Long Chen, Xing Xu, 2018

机译：基于观测器迭代和信息融合的智能四轮独立驱动电动汽车纵向力和侧滑角估计
7. Vehicle Stability Control with Four-Wheel Independent Braking, Drive and Steering on In-Wheel Motor-Driven Electric Vehicles [O] . Jaewon Nah, Seongjin Yim 2020

机译：车辆稳定性控制与四轮独立制动，驱动和轮胎转向车载电动汽车

Combination of Active Braking and Torque Vectoring in Electronic Stability Control for Four-Wheel Independent Drive Electric Vehicle

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