Analysis of subsystems coordination for electric vehicle during straight-line braking and brake-in-turn

机译：电动汽车直线制动与转弯制动子系统协调分析

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Coordination between friction brake system, individual-wheel drive electric motors and tire inflation pressure system is considered. To coordinate vehicle subsystems, optimization-based control allocation is used. The influence of subsystem coordination on criteria of vehicle dynamics (braking distance, RMSE of longitudinal acceleration, RMSE of yaw rate, sideslip angle) and energy consumption and losses (recuperated energy during maneuver and tire energy dissipation) were analyzed for straight-line braking and brake-in-turn maneuvers by simulation investigation. The proposed control system was investigated using HIL test rig with hardware components of friction brake system and tire inflation pressure system.

机译：考虑了摩擦制动系统，单轮驱动电动机和轮胎充气压力系统之间的协调。为了协调车辆子系统，使用了基于优化的控制分配。对于直线制动，分析了子系统协调对车辆动力学标准（制动距离，纵向加速度的RMSE，横摆率的RMSE，侧滑角）以及能量消耗和损失（操纵过程中的累积能量和轮胎能量耗散）的影响。通过模拟研究进行转弯制动动作。所建议的控制系统使用HIL试验台进行了研究，该系统具有摩擦制动系统和轮胎充气压力系统的硬件组件。

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《IEEE Symposium on Computational Intelligence for Engineering Solutions》|2013年|61-67|共7页
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Shyrokau Barys; Wang Danwei; Heidrich Lukas; Hopping Kristian;
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brake-in-turn; control allocation; electric vehicle; straight braking; subsystem coordination;

机译：转弯制动;控制分配;电动汽车;直线制动;子系统协调;

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1. Robust Control of Regenerative and Hydraulic Brakes for Enhancing Directional Stability of an Electric Vehicle During Straight-Line Braking [J] . Chen Lv, Junzhi Zhang, Yutong Li, SAE International Journal of Alternative Powertrains . 2016,第2期

机译：再生制动和液压制动的鲁棒控制，以提高电动汽车在直线制动过程中的方向稳定性
2. Directional-stability-aware brake blending control synthesis for over-actuated electric vehicles during straight-line deceleration [J] . Lv Chen, Zhang Junzhi, Li Yutong, Mechatronics: The Science of Intelligent Machines . 2016,第Null期

机译：电动汽车直线减速过程中具有方向稳定性的制动混合控制综合
3. Braking/steering coordination control for in-wheel motor drive electric vehicles based on nonlinear model predictive control [J] . Zhu Junjun, Wang Zhenpo, Zhang Lei, Mechanism and Machine Theory: Dynamics of Machine Systems Gears and Power Trandmissions Robots and Manipulator Systems Computer-Aided Design Methods . 2019,第期

机译：基于非线性模型预测控制的轮式电机驱动电动车辆制动/转向协调
4. Analysis of subsystems coordination for electric vehicle during straight-line braking and brake-in-turn [C] . Shyrokau Barys, Wang Danwei, Heidrich Lukas, IEEE Symposium on Computational Intelligence for Engineering Solutions . 2013

机译：直线制动过程中电动车辆子系统协调分析及滚动
5. Analysis and design of a hybrid electric vehicle braking system. [D] . Twork, Michael James. 1993

机译：混合动力电动汽车制动系统的分析和设计。
6. Vehicle Deceleration Prediction Model to Reflect Individual Driver Characteristics by Online Parameter Learning for Autonomous Regenerative Braking of Electric Vehicles [O] . Kyunghan Min, Gyubin Sim, Seongju Ahn, 2019

机译：通过在线参数学习反映电动汽车自动再生制动的驾驶员减速度预测模型
7. Torque Coordination Control during Braking Mode Switch for a Plug-in Hybrid Electric Vehicle [O] . Yang Yang, Chao Wang, Quanrang Zhang, 2017

机译：插电式混合动力汽车制动模式切换时的扭矩协调控制
8. Advanced Subsystems for Practical Electric vehicles he Electric and Hybrid vehicle Subsystems Technology Development Program [R] . 1979

机译：实用电动汽车的先进子系统他是电动和混合动力汽车子系统技术开发计划

Analysis of subsystems coordination for electric vehicle during straight-line braking and brake-in-turn

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