A Flexible Cloud-based HIL Testing of Batteries for Various Electrified Vehicles

Ronan  German; Theodoros Kalogiannis; Alain  Bouscayrol; Jiacheng He; Florian  Tournez; Maitane Berecibar; Calin Husar; marius ciocan; Sergio Costa; Adrien Genic; Betty  Lemaire-Semail

doi:10.1109/TVT.2023.3337655

A Flexible Cloud-based HIL Testing of Batteries for Various Electrified Vehicles

Ronan German , Theodoros Kalogiannis, Alain Bouscayrol, Jiacheng He, Florian Tournez, Maitane Berecibar, Calin Husar, marius ciocan, Sergio Costa, Adrien Genic, Betty Lemaire-Semail

Onderzoeksoutput: Article › peer review

5 Citaten (Scopus)

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Power Hardware-In-the-loop (HIL) testing is increasing in the automotive industry for testing subsystems for new vehicles. Usually, the test is located in a unique place (stand-alone (local) HIL). The key-points for a vehicle manufacturer and subsystems suppliers are time and confidentiality. Using the cloud is a way to satisfy the both. Cloud model sharing is developed to spare time and cloud-based real-time simulation limits the access to the models to only certain variables. In this paper, a cloud-based power HIL testing is proposed using a cloud of vehicle models. The Energetic Macroscopic Representation (EMR) formalism is used to organize all the models. It facilitates the interconnections between the simulated and power tested subsystems. Two new batteries are experimentally tested, one for an electric vehicle, the other one for a plug-in hybrid vehicle. The same cloud is used and the power test facilities are located in two different locations. This shows the flexibility of the method.

Originele taal-2	English
Pagina's (van-tot)	1-10
Aantal pagina's	10
Tijdschrift	IEEE Transactions on Vehicular Technology
DOI's	https://doi.org/10.1109/TVT.2023.3337655
Status	Published - 29 nov. 2023

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IEEE

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10.1109/TVT.2023.3337655

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abstract = "Power Hardware-In-the-loop (HIL) testing is increasing in the automotive industry for testing subsystems for new vehicles. Usually, the test is located in a unique place (stand-alone (local) HIL). The key-points for a vehicle manufacturer and subsystems suppliers are time and confidentiality. Using the cloud is a way to satisfy the both. Cloud model sharing is developed to spare time and cloud-based real-time simulation limits the access to the models to only certain variables. In this paper, a cloud-based power HIL testing is proposed using a cloud of vehicle models. The Energetic Macroscopic Representation (EMR) formalism is used to organize all the models. It facilitates the interconnections between the simulated and power tested subsystems. Two new batteries are experimentally tested, one for an electric vehicle, the other one for a plug-in hybrid vehicle. The same cloud is used and the power test facilities are located in two different locations. This shows the flexibility of the method.",

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AU - German , Ronan

AU - Kalogiannis, Theodoros

AU - Bouscayrol, Alain

AU - He, Jiacheng

AU - Tournez, Florian

AU - Berecibar, Maitane

AU - Husar, Calin

AU - ciocan, marius

AU - Costa, Sergio

AU - Genic, Adrien

AU - Lemaire-Semail, Betty

N1 - Publisher Copyright: IEEE

PY - 2023/11/29

Y1 - 2023/11/29

N2 - Power Hardware-In-the-loop (HIL) testing is increasing in the automotive industry for testing subsystems for new vehicles. Usually, the test is located in a unique place (stand-alone (local) HIL). The key-points for a vehicle manufacturer and subsystems suppliers are time and confidentiality. Using the cloud is a way to satisfy the both. Cloud model sharing is developed to spare time and cloud-based real-time simulation limits the access to the models to only certain variables. In this paper, a cloud-based power HIL testing is proposed using a cloud of vehicle models. The Energetic Macroscopic Representation (EMR) formalism is used to organize all the models. It facilitates the interconnections between the simulated and power tested subsystems. Two new batteries are experimentally tested, one for an electric vehicle, the other one for a plug-in hybrid vehicle. The same cloud is used and the power test facilities are located in two different locations. This shows the flexibility of the method.

AB - Power Hardware-In-the-loop (HIL) testing is increasing in the automotive industry for testing subsystems for new vehicles. Usually, the test is located in a unique place (stand-alone (local) HIL). The key-points for a vehicle manufacturer and subsystems suppliers are time and confidentiality. Using the cloud is a way to satisfy the both. Cloud model sharing is developed to spare time and cloud-based real-time simulation limits the access to the models to only certain variables. In this paper, a cloud-based power HIL testing is proposed using a cloud of vehicle models. The Energetic Macroscopic Representation (EMR) formalism is used to organize all the models. It facilitates the interconnections between the simulated and power tested subsystems. Two new batteries are experimentally tested, one for an electric vehicle, the other one for a plug-in hybrid vehicle. The same cloud is used and the power test facilities are located in two different locations. This shows the flexibility of the method.

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A Flexible Cloud-based HIL Testing of Batteries for Various Electrified Vehicles

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