关键词: 纯电动汽车；制动能量回收；工况识别；机器学习

Abstract: Pure electric vehicles face the problem of range anxiety, and how to improve battery energy efficiency has become a research hotspot. In response to the shortcomings of existing pure electric vehicle braking energy recovery strategies in actual operation, this study proposes a pure electric vehicle braking energy recovery control strategy based on condition recognition to optimize the energy recovery effect of pure electric vehicles in actual road driving environments. This method uses K-means clustering algorithm to classify the driving state of the actual vehicle during braking energy recovery, and uses machine learning algorithm to identify and train the driving state with insufficient energy recovery, establishing a vehicle operating condition recognition model. Design improved control strategies for driving conditions with poor recycling efficiency, establish an online execution module, and switch vehicle control strategies in real-time. The results show that this method can accurately identify working conditions with poor braking performance, improve the efficiency of braking energy recovery by switching optimization strategies, and increase the range by 3%~4% compared to the original braking energy recovery scheme.

Key words: pure electric vehicles; braking energy recovery; driving condition recognition; machine learning