Kun Xu scite author profile

Kun Xu

3Publications

188Citation Statements Received

25Citation Statements Given

How they've been cited

525

188

How they cite others

Affiliations

Chinese Academy of Sciences, Shenzhen Institutes of Advanced Technology, National University of Defense Technology

Publications

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Energy Management Strategy for a Hybrid Electric Vehicle Based on Deep Reinforcement Learning

Liu

et al. 2018

Applied Sciences

212

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An energy management strategy (EMS) is important for hybrid electric vehicles (HEVs) since it plays a decisive role on the performance of the vehicle. However, the variation of future driving conditions deeply influences the effectiveness of the EMS. Most existing EMS methods simply follow predefined rules that are not adaptive to different driving conditions online. Therefore, it is useful that the EMS can learn from the environment or driving cycle. In this paper, a deep reinforcement learning (DRL)-based EMS is designed such that it can learn to select actions directly from the states without any prediction or predefined rules. Furthermore, a DRL-based online learning architecture is presented. It is significant for applying the DRL algorithm in HEV energy management under different driving conditions. Simulation experiments have been conducted using MATLAB and Advanced Vehicle Simulator (ADVISOR) co-simulation. Experimental results validate the effectiveness of the DRL-based EMS compared with the rule-based EMS in terms of fuel economy. The online learning architecture is also proved to be effective. The proposed method ensures the optimality, as well as real-time applicability, in HEVs.

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An Intelligent Regenerative Braking Strategy for Electric Vehicles

Liu

et al. 2011

Energies

145

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Abstract:Regenerative braking is an effective approach for electric vehicles (EVs) to extend their driving range. A fuzzy-logic-based regenerative braking strategy (RBS) integrated with series regenerative braking is developed in this paper to advance the level of energy-savings. From the viewpoint of securing car stability in braking operations, the braking force distribution between the front and rear wheels so as to accord with the ideal distribution curve are considered to prevent vehicles from experiencing wheel lock and slip phenomena during braking. Then, a fuzzy RBS using the driver's braking force command, vehicle speed, battery SOC, battery temperature are designed to determine the distribution between friction braking force and regenerative braking force to improve the energy recuperation efficiency. The experimental results on an "LF620" prototype EV validated the feasibility and effectiveness of regenerative braking and showed that the proposed fuzzy RBS was endowed with good control performance. The maximum driving range of LF620 EV was improved by 25.7% compared with non-RBS conditions.

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State of charge estimation for electric vehicle power battery using advanced machine learning algorithm under diversified drive cycles

Zahid

Liu

et al. 2018

Energy

168

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Kun Xu

Energy Management Strategy for a Hybrid Electric Vehicle Based on Deep Reinforcement Learning

An Intelligent Regenerative Braking Strategy for Electric Vehicles

State of charge estimation for electric vehicle power battery using advanced machine learning algorithm under diversified drive cycles

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