This work presents a new contribution on energy management of hybrid electric systems for vehicle applications. The studied hybrid electrical vehicle is composed of fuel cell as a main source and the auxiliary system containing the battery and supercapacitor. A programmable load is used to emulate a vehicle load profile. Two methods are combined to smartly and optimally control the energy flow between the used sources. These methods are the Interconnection and Damping Assignment Passivity Based Control (IDA-PBC) and the Hamilton-Jacobi Bellman (HJB) optimization. The source limitation is considered here in terms of the battery state of charge. The experimental works validate the efficiency of the proposed control where the obtained results ...
International audienceHybrid-electric vehicles appear to be one of the most promising technologies f...
International audienceAbstract--In this paper several optimal control strategies are proposed for th...
Hydrogen fuel cells are poised to become the next major power generation technology for the automoti...
International audienceThis work presents a new contribution on energy management of hybrid electric ...
This thesis deals with the study of the reconfigurable energy management of an electric vehicle base...
International audienceThis paper addresses the optimization of energy management in a hybrid vehicle...
International audienceIn the context of growing environmental concerns, hybrid-electric vehicles app...
This paper deals with the problem of modeling and controlling the electric power stage of hybrid ele...
International audienceThe energy management of Hybrid Electric Vehicles (HEV) has witnessed signific...
International audienceGrowing environmental and global crude oil supplies concerns are stimulating r...
Hybrid electric vehicles offer significant fuel economy benefits, because battery and fuel can be us...
This paper deals with the problem of controlling hybrid energy storage system (HESS) for electric ve...
Hybrid platforms powered by fuel cell and supercapacitor represent a powertrain with active state-de...
International audienceHybrid-electric vehicles appear to be one of the most promising technologies f...
Hybrid platforms powered by fuel cell and supercapacitor represent a powertrain with active state-de...
International audienceHybrid-electric vehicles appear to be one of the most promising technologies f...
International audienceAbstract--In this paper several optimal control strategies are proposed for th...
Hydrogen fuel cells are poised to become the next major power generation technology for the automoti...
International audienceThis work presents a new contribution on energy management of hybrid electric ...
This thesis deals with the study of the reconfigurable energy management of an electric vehicle base...
International audienceThis paper addresses the optimization of energy management in a hybrid vehicle...
International audienceIn the context of growing environmental concerns, hybrid-electric vehicles app...
This paper deals with the problem of modeling and controlling the electric power stage of hybrid ele...
International audienceThe energy management of Hybrid Electric Vehicles (HEV) has witnessed signific...
International audienceGrowing environmental and global crude oil supplies concerns are stimulating r...
Hybrid electric vehicles offer significant fuel economy benefits, because battery and fuel can be us...
This paper deals with the problem of controlling hybrid energy storage system (HESS) for electric ve...
Hybrid platforms powered by fuel cell and supercapacitor represent a powertrain with active state-de...
International audienceHybrid-electric vehicles appear to be one of the most promising technologies f...
Hybrid platforms powered by fuel cell and supercapacitor represent a powertrain with active state-de...
International audienceHybrid-electric vehicles appear to be one of the most promising technologies f...
International audienceAbstract--In this paper several optimal control strategies are proposed for th...
Hydrogen fuel cells are poised to become the next major power generation technology for the automoti...