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Front and rear wheel independent drive type electric vehicle (FRID EV) providing efficient running performance on various road surfaces

机译：前后轮独立驱动型电动汽车（FRID EV）在各种路面上均具有高效的行驶性能

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This paper describes the drive performance of a FRID EV (front and rear wheel independent drive type electric vehicle) that is safe and has good running performance, and is specifically focused on a driving method that can deliver efficient running performance on various road surfaces. The driving performance is obtained via a traction control method that uses the structural features of the FRID EV in which longitudinal forces on the front and rear wheels can be adjusted flexibly according to the road and the driving conditions. For performing the traction control, which is also beneficial for energy saving during running, a slip ratio control, based on slip ratio-of-friction coefficient (μ)-curve and compensation for load movement produced by acceleration, is needed. When running on high-μ roads, compensation for load movement is effective; however, while running on low-μ roads, both compensation for load movement and slip ratio control are performed simultaneously. The effectiveness of the proposed traction control was verified using simulations; experiments also contributed to the validation.

机译：本文介绍了安全且具有良好行驶性能的FRID EV（前后轮独立驱动型电动汽车）的行驶性能，并特别着重于在各种路面上均可提供有效行驶性能的行驶方法。通过采用FRID EV的结构特征的牵引力控制方法可获得驾驶性能，在该结构中，可以根据道路和驾驶条件灵活地调节前后轮上的纵向力。为了进行对行驶中的节能也有利的牵引力控制，需要基于滑移摩擦系数（μ）曲线和对由加速度产生的负载移动进行补偿的滑移率控制。在高μ的道路上行驶时，有效的载荷移动补偿是有效的。但是，在低μ道路上行驶时，同时进行负载移动和滑移率控制的补偿。仿真结果验证了所提出的牵引力控制系统的有效性。实验也有助于验证。

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《2011 IEEE Vehicle Power and Propulsion Conference》|2011年|p.1-6|共6页
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Mutoh Nobuyoshi; Suzuki Kota; Kawaguchi Kazuya;
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中图分类汽车发动机;
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1. Running performance of front-and-rear-wheel-independent-drive-type electric vehicle suitable for next-generation electric vehicles [J] . Nobuyoshi Mutoh International journal of power electronics . 2013,第2期

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2. Failsafe Drive Performance of FRID Electric Vehicles With the Structure Driven by the Front and Rear Wheels Independently [J] . Mutoh N., Takahashi Y., Tomita Y. IEEE Transactions on Industrial Electronics . 2008,第6期

机译：前轮和后轮独立驱动的FRID电动汽车的故障安全驾驶性能
3. Driving and Braking Torque Distribution Methods for Front- and Rear-Wheel-Independent Drive-Type Electric Vehicles on Roads With Low Friction Coefficient [J] . Mutoh N. Industrial Electronics, IEEE Transactions on . 2012,第10期

机译：低摩擦系数道路上前后轮独立式电动汽车的驱动和制动扭矩分配方法
4. Front and rear wheel independent drive type electric vehicle (FRID EV) providing efficient running performance on various road surfaces [C] . Mutoh Nobuyoshi, Suzuki Kota, Kawaguchi Kazuya IEEE Vehicle Power and Propulsion Conference . 2011

机译：前轮独立驱动式电动车（FRID EV）在各种道路表面上提供高效的运行性能
5. Design and Control Optimization of Hybrid Electric Vehicles: From Two-Wheel-Drive to All-Wheel-Drive Vehicles [D] . Pan, Ziheng 2019

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Front and rear wheel independent drive type electric vehicle (FRID EV) providing efficient running performance on various road surfaces

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