The paper proposes a generic methodology to incorporate constraints (pollutant emission, battery health, drivability) into on-line energy management strategies (EMSs) for hybrid electric vehicles (HEVs) and plug-in hybrid electric vehicles (PHEVs). The integration of each constraint into the EMS, made with the Pontryagin maximum principle, shows a tradeoff between the fuel consumption and the constraint introduced. As state dynamics come into play (catalyst temperature, battery cell temperature, etc.), the optimization problem becomes more complex. Simulation results are presented to highlight the contribution of this generic strategy, including constraints compared to the standard approach. These results show that it is possible to find an...
In the last decades the automotive sector has seen a technological revolution, due mainly to the mor...
This paper presents a real-time and approximately optimal energy management strategy (EMS) based on ...
A general framework to combine optimal energy management (powertrain supervisory control) and therma...
Well‐designed energy management strategies are essential for the good operation of Hybrid Electric V...
Environmental issues have commonly happened until now, caused by fossil fuel burning in the indust...
In the near future, a significant increase in electric power consumption in vehicles is expected. To...
Abstract — Control strategies for hybrid-electric vehicles generally target several simultaneous obj...
Reducing transportation-related energy consumption and greenhouse gas (GHG) emissions have been a co...
Electrification of vehicles is an indispensable step in improving fuel economy and reducing fossil f...
The rising concerns about the global warming and emissions on one hand, and the limited sources of f...
This paper shows the influence of different battery charge management strategies on the fuel economy...
The Hybrid Electric Vehicle (HEV) seems to be one of the most promising short-term solution to impro...
IEEE VPPC 2014 - Vehicular power and propulsion conference, COIMBRA, PORTUGAL, 27-/10/2014 - 30/10/2...
This article presents a thorough comparative study of energy management strategies (EMSs) for a para...
The development of energy management strategy (EMS), which considers how power is distributed betwee...
In the last decades the automotive sector has seen a technological revolution, due mainly to the mor...
This paper presents a real-time and approximately optimal energy management strategy (EMS) based on ...
A general framework to combine optimal energy management (powertrain supervisory control) and therma...
Well‐designed energy management strategies are essential for the good operation of Hybrid Electric V...
Environmental issues have commonly happened until now, caused by fossil fuel burning in the indust...
In the near future, a significant increase in electric power consumption in vehicles is expected. To...
Abstract — Control strategies for hybrid-electric vehicles generally target several simultaneous obj...
Reducing transportation-related energy consumption and greenhouse gas (GHG) emissions have been a co...
Electrification of vehicles is an indispensable step in improving fuel economy and reducing fossil f...
The rising concerns about the global warming and emissions on one hand, and the limited sources of f...
This paper shows the influence of different battery charge management strategies on the fuel economy...
The Hybrid Electric Vehicle (HEV) seems to be one of the most promising short-term solution to impro...
IEEE VPPC 2014 - Vehicular power and propulsion conference, COIMBRA, PORTUGAL, 27-/10/2014 - 30/10/2...
This article presents a thorough comparative study of energy management strategies (EMSs) for a para...
The development of energy management strategy (EMS), which considers how power is distributed betwee...
In the last decades the automotive sector has seen a technological revolution, due mainly to the mor...
This paper presents a real-time and approximately optimal energy management strategy (EMS) based on ...
A general framework to combine optimal energy management (powertrain supervisory control) and therma...