电动汽车充电数据合成:真实世界数据驱动法

IF 12.5 Q1 TRANSPORTATION
Zhi Li , Zilin Bian , Zhibin Chen , Kaan Ozbay , Minghui Zhong
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引用次数: 0

摘要

如今,电动汽车(EV)越来越多地配备了能够收集和记录实时充电数据的先进车载设备。对来自大规模电动汽车车队的此类数据进行分析,在支持决策过程中发挥着至关重要的作用,尤其是在部署充电基础设施和制定以电动汽车为重点的政策方面。然而,收集这些数据面临着巨大的挑战,主要原因是隐私问题和与数据访问相关的高昂成本。为此,本研究引入了一种创新方法,用于生成大规模、多样化的电动汽车充电数据,以反映真实世界的模式,从而实现经济高效且符合隐私要求的使用。具体来说,该方法结合了吉布斯采样和条件密度网络,并使用一个真实世界数据集进行了训练和验证,该数据集由上海 3,777 辆电池电动车(BEV)在一年内发生的约 165 万次充电事件组成。结果表明,所提出的模型能有效捕捉原始充电数据的基本分布,从而生成与真实世界充电事件非常相似的合成样本。该方法可随时用于数据估算和扩充,还可根据预期的发展前提,通过条件生成来帮助模拟未来的充电分布。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Synthesis of electric vehicle charging data: A real-world data-driven approach

Nowadays, electric vehicles (EVs) are increasingly equipped with advanced onboard devices capable of collecting and recording real-time charging data. The analysis of such data from a large-scale EV fleet plays a crucial role in supporting decision-making processes, particularly in the deployment of charging infrastructure and the formulation of EV-focused policies. Nevertheless, the challenges of collecting these data are significant, primarily due to privacy concerns and the high costs associated with data access. In response, this study introduces an innovative methodology for generating large-scale and diverse EV charging data, mirroring real-world patterns for cost-efficient and privacy-compliant use. Specifically, this approach combines Gibbs sampling and conditional density networks and was trained and validated using a real-world dataset consisting of approximately 1.65 million charging events from 3,777 battery EVs (BEVs) in Shanghai over a year. Results illustrate that the proposed model can effectively capture the underlying distribution of the original charging data, enabling the generation of synthetic samples that closely resemble real-world charging events. The approach is readily employed for data imputation and augmentation, and it can also help simulate future charging distributions by conditional generation based on anticipated development premises.

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