This paper instantiates a convex electric powertrain design optimization framework, bridging the gap between high-level powertrain sizing and low-level components design. We focus on the electric motor and transmission of electric vehicles, using a scalable convex motor model based on surrogate modeling techniques. Specifically, we first select relevant motor design variables and evaluate high-fidelity samples according to a predefined sampling plan. Second, using the sample data, we identify a convex model of the motor, which predicts its losses as a function of the operating point and the design parameters. We also identify models of the remaining components of the powertrain, namely a battery and a fixed-gear transmission. Third, we fram...
This paper presents a modeling and optimization framework to minimize the energy consumption of a fu...
This paper presents a methodology for the determination of the optimal torque set points actuated to...
This paper presents convex modeling steps for the problem of optimal battery dimensioning and contro...
This paper instantiates a convex electric powertrain design optimization framework, bridging the gap...
Hybrid Electric Vehicles are being considered a convenient intermediate product in the conversion pr...
This article presents a framework to study design tradeoffs in the search for electromobility soluti...
In general, electric motor design procedures for automotive applications go through expensive trial-...
This paper presents a novel convex modeling approach which allows for a simultaneous optimization of...
This study investigates the impact of dierent levels of modelling details on the problem of optimizi...
This study investigates the impact of different levels of modeling details on the problem of optimiz...
This paper presents models and optimization algorithms to jointly optimize the design and control of...
This paper presents models and optimization methods for the design of electric vehicle propulsion sy...
The rising concerns about the global warming and emissions on one hand, and the limited resources of...
Lap time is the most relevant performance indicator in electric racing. In order to minimize it, it ...
This paper presents a modeling and optimization framework to minimize the energy consumption of a fu...
This paper presents a methodology for the determination of the optimal torque set points actuated to...
This paper presents convex modeling steps for the problem of optimal battery dimensioning and contro...
This paper instantiates a convex electric powertrain design optimization framework, bridging the gap...
Hybrid Electric Vehicles are being considered a convenient intermediate product in the conversion pr...
This article presents a framework to study design tradeoffs in the search for electromobility soluti...
In general, electric motor design procedures for automotive applications go through expensive trial-...
This paper presents a novel convex modeling approach which allows for a simultaneous optimization of...
This study investigates the impact of dierent levels of modelling details on the problem of optimizi...
This study investigates the impact of different levels of modeling details on the problem of optimiz...
This paper presents models and optimization algorithms to jointly optimize the design and control of...
This paper presents models and optimization methods for the design of electric vehicle propulsion sy...
The rising concerns about the global warming and emissions on one hand, and the limited resources of...
Lap time is the most relevant performance indicator in electric racing. In order to minimize it, it ...
This paper presents a modeling and optimization framework to minimize the energy consumption of a fu...
This paper presents a methodology for the determination of the optimal torque set points actuated to...
This paper presents convex modeling steps for the problem of optimal battery dimensioning and contro...