To improve the regeneration energy of electric vehicle, an energy-optimal braking strategy is developed. First, the vehicle braking intention is accessed by using vehicle-to-everything communication, i.e., braking distance and terminal velocity. Then, an optimal control problem with consideration of braking intention is formulated for maximizing regeneration energy. The control problem is solved by distance-based dynamic programming algorithm to plan the energy-optimal braking velocity. Finally, the effectiveness of proposed strategy is evaluated by simulation. The results show the regeneration energy efficiency of proposed strategy achieves improvement is over 10% compared with the constant speed strategy. Furtherly, the energy-optimal braking suggestions is investigated based on several traffic scenarios, i.e., a larger braking force in a high-velocity range can reduce vehicle resistance and make full use of motor generation power; the braking force was adjusted in moderated-velocity range for reducing friction braking, and a larger braking force should be used for parking quickly.


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    Title :

    Energy-optimal Braking Velocity Planning of Connected Electric Vehicle


    Contributors:
    Dong, Haoxuan (author) / Zhuang, Weichao (author) / Wang, Yan (author) / Ding, Haonan (author) / Yin, Guodong (author)


    Publication date :

    2020-12-18


    Size :

    968251 byte




    Type of media :

    Conference paper


    Type of material :

    Electronic Resource


    Language :

    English



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