Embedded Real-Time Speed Forecasting for Electric Vehicles: A Case Study on RSK Urban Roads

Abstract: During the past ten years, worldwide efforts have been pursuing an ambitious policy of sustainable development, particularly in the energy sector. This ambition was revealed by noticeable progress in the deployment and development of infrastructures for the production of renewable electrical energy. These infrastructures combined with the deployment of wired and wireless communications could support research actions in the field of connected electro-mobility. Also, this progress was manifested by the developme… Show more

“…However, the proposed method relies on the forecasted speed, which is already deployed into the embedded system, to generate the future SoC. The deployed speed forecasting system is already tested in the previous work [43], and the simplicity and the computational power of the EV model helps in integrating it alongside the speed forecasting system. As a future work, the proposed hybrid approach is undergoing integration into the simulator, V2X Simulation Runtime Infrastructure (VSIMRTI), for virtual testing and scalability studies.…”

“…The proposed method combines a model-based approach with machine learning algorithms. Therefore, the proposed method follows two steps: (i) a machine learning algorithm is used to forecast the vehicle speed [43], and (ii) the forecasted speed is fed to a model, which outputs the forecasted SoC. The proposed method is tested using real dataset and compared against other methods from literature.…”

“…The data-based method is used to forecast the vehicle's speed, while the model-based method uses the forecasted speed to output the corresponding battery SoC. Regarding the first component of the proposed approach, we leveraged on the work presented in [43]. In the previous work, an embedded system was developed and used a data-driven method for speed forecasting.…”

A Hybrid Approach for State-of-Charge Forecasting in Battery-Powered Electric Vehicles

“…However, the proposed method relies on the forecasted speed, which is already deployed into the embedded system, to generate the future SoC. The deployed speed forecasting system is already tested in the previous work [43], and the simplicity and the computational power of the EV model helps in integrating it alongside the speed forecasting system. As a future work, the proposed hybrid approach is undergoing integration into the simulator, V2X Simulation Runtime Infrastructure (VSIMRTI), for virtual testing and scalability studies.…”

“…The proposed method combines a model-based approach with machine learning algorithms. Therefore, the proposed method follows two steps: (i) a machine learning algorithm is used to forecast the vehicle speed [43], and (ii) the forecasted speed is fed to a model, which outputs the forecasted SoC. The proposed method is tested using real dataset and compared against other methods from literature.…”

“…The data-based method is used to forecast the vehicle's speed, while the model-based method uses the forecasted speed to output the corresponding battery SoC. Regarding the first component of the proposed approach, we leveraged on the work presented in [43]. In the previous work, an embedded system was developed and used a data-driven method for speed forecasting.…”

A Hybrid Approach for State-of-Charge Forecasting in Battery-Powered Electric Vehicles

HELECAR-D: A dataset for urban electro mobility in Moroccan context

Sustainable transportation in Africa: A bibliometric, visualisation and thematic analysis