Charging-Related State Prediction for Electric Vehicles Using the Deep Learning Model

Charging-Related State Prediction for Electric Vehicles Using the Deep Learning Model

Blog Article

Electric vehicles (EVs) are becoming the potential contender for the conventional gasoline vehicles in view of the environment-friendly and energy-efficient characteristics.The prediction of EV charging-related Felt Decoration states (defined in this study as home charge, outside charge, home stop, outside stop, low-battery travel, and high-battery travel) could help to identify the future charging demand (power consumption) of EV individuals.Specifically, it could guide the operation and management of charging facilities and also provide tailored charger availability information based on users’ real-time locations.This study aims to predict charging-related states of individual EVs using a deep learning approach.

We first propose a tangible approach to convert EV trajectory data into state sequences and then develop a bidirectional gated recurrent unit model with attention mechanism (Bi-GRU-Attention) to forecast EV states.A sensitivity analysis is conducted to tune and/or calibrate parameters in the model based on plug-in hybrid EV trajectories dataset collected in Shanghai, China.Experiment results show that (i) the proposed method could achieve an average accuracy of 77.15% with a 1-hour prediction length and it outperforms the baseline models for all tested prediction lengths; (ii) it is also Sandwich Maker revealed that the prediction accuracy varies dramatically with different states and time periods.

Among all states, the proposed model has a higher prediction accuracy on “home stop” (89.0%).As for time periods, the EV states around 08:00 am and 04:00 pm are hard to predict, and a comparatively low prediction accuracy (close to 60%) is obtained; and (iii) the stability and robustness analysis implies that the proposed model is stable and insensitive to SOC noise or season.