Abstract
Electric vehicle (EV) charging stations have become prominent in electricity grids in the past few years. Their increased penetration introduces both challenges and opportunities; they contribute to increased load, but also offer flexibility potential, e.g., in deferring the load in time. To analyze such scenarios, realistic EV data are required, which are hard to come by. Therefore, in this article we define a synthetic data generator (SDG) for EV charging sessions based on a large real-world dataset. Arrival times of EVs are modeled assuming that the inter-arrival times of EVs follow an exponential distribution. Connection time for EVs is dependent on the arrival time of EV, and can be described using a conditional probability distribution. This distribution is estimated using Gaussian mixture models, and departure times can calculated by sampling connection times for EV arrivals from this distribution. Our SDG is based on a novel method for the temporal modeling of EV sessions, and jointly models the arrival and departure times of EVs for a large number of charging stations. Our SDG was trained using real-world EV sessions, and used to generate synthetic samples of session data, which were statistically indistinguishable from the real-world data. We provide both (i) source code to train SDG models from new data, and (ii) trained models that reflect real-world datasets.
Highlights
The growth of electric vehicles (EVs) in the past decade has induced significant modifications in city-wide electric grids
This validates that the inter-arrival times of EV sessions are exponentially distributed (Section 2.1), and supports our chosen models arrival models (AM) of the arrival times
EV session data collected from charging stations on a electricity gird can be used for flexibility analysis, making pricing decisions, etc., and are essential for advancement in the field of smart grids
Summary
The growth of electric vehicles (EVs) in the past decade has induced significant modifications in city-wide electric grids. More than one million plug-in EVs were registered in Europe in 2018, and multiple charging stations have been installed to facilitate this growth. This rise provides opportunities to collect EV session data and use it to exploit flexibility, balance load and create responsive grids. Companies can use the data generated from charging stations to understand consumer behavior, provide incentives and make pricing decisions. Session data collected from city-wide EV charging stations can be used for both academic and industrial purposes: the increased inflow of data has huge impacts on the energy informatics field [1]. Studies require reliable session data for understanding behaviors and exploring flexibility.
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