In this paper, different battery-electric powertrain designs have been investigated for a passenger hatchback vehicle. Specifically, the energetic effect of technological and topological choices in the powertrain design is analyzed. Thereto, a feasible set of battery electric powertrain configurations, varying in topology, machine technology, and transmission architecture is considered. For each configuration, the electric machine size(s), gear ratio value(s), and controls are jointly optimized in an integrated (bi-level) fashion using the particle swarm optimization (PSO) algorithm. The results showcase that the combined component and topological choices can lead to a maximum reduction of 17.61% in the vehicle’s energy consumption and can ...
This paper presents models and optimization methods for the design of electric vehicle propulsion sy...
This paper presents models and optimization algorithms to jointly optimize the design and control of...
This article proposes an energy-efficiency strategy based on the optimization of driving patterns fo...
In this paper, different battery-electric powertrain designs have been investigated for a passenger ...
Powertrain system design optimization is an unexplored territory for battery electric trucks, which ...
Electric vehicles are becoming more popular in the market. To be competitive, manufacturers need to ...
Conventionally, electric powertrain in battery electric vehicles are designed and optimized for a pa...
The current transition from internal combustion engine vehicles to battery electric vehicles require...
\u3cp\u3eIn this paper, the energetic benefits of a multispeed transmission compared to a single spe...
The continued increase in greenhouse emissions has recently raised serious environmental, economic a...
The dramatic global climate change has driven governments to drastically tackle pollutant emissions....
Electric vehicles are gaining momentum as a valid alternative to conventional engine-based cars. In ...
Current advances in connected and automated mobility claim to change driving scenarios worldwide. Ne...
An iterative algorithm is proposed for determining the optimal chassis design of an electric vehicle...
This paper presents models and optimization methods for the design of electric vehicle propulsion sy...
This paper presents models and optimization algorithms to jointly optimize the design and control of...
This article proposes an energy-efficiency strategy based on the optimization of driving patterns fo...
In this paper, different battery-electric powertrain designs have been investigated for a passenger ...
Powertrain system design optimization is an unexplored territory for battery electric trucks, which ...
Electric vehicles are becoming more popular in the market. To be competitive, manufacturers need to ...
Conventionally, electric powertrain in battery electric vehicles are designed and optimized for a pa...
The current transition from internal combustion engine vehicles to battery electric vehicles require...
\u3cp\u3eIn this paper, the energetic benefits of a multispeed transmission compared to a single spe...
The continued increase in greenhouse emissions has recently raised serious environmental, economic a...
The dramatic global climate change has driven governments to drastically tackle pollutant emissions....
Electric vehicles are gaining momentum as a valid alternative to conventional engine-based cars. In ...
Current advances in connected and automated mobility claim to change driving scenarios worldwide. Ne...
An iterative algorithm is proposed for determining the optimal chassis design of an electric vehicle...
This paper presents models and optimization methods for the design of electric vehicle propulsion sy...
This paper presents models and optimization algorithms to jointly optimize the design and control of...
This article proposes an energy-efficiency strategy based on the optimization of driving patterns fo...