AbstractIn this contribution we compare two different approaches to the implementation of a Model Predictive Controller in an electric vehicle with respect to the quality of the solution and real-time applicability. The goal is to develop an intelligent cruise control in order to extend the vehicle range, i.e. to minimize energy consumption, by computing the optimal torque profile for a given track. On the one hand, a path-based linear model with strong simplifications regarding the vehicle dynamics is used. On the other hand, a nonlinear model is employed in which the dynamics of the mechanical and electrical subsystem are modeled
AbstractThe energy consumption of comfort components influences the range of electric vehicles signi...
This work addresses the ecological-adaptive cruise control problem for connected electric vehicles b...
Increasing the range of electric vehicles (EVs) is possible with the help of eco-driving techniques,...
In this contribution we compare two different approaches to the implementation of a Model Predictive...
peer reviewedThis paper presents a novel energy-efficient model-predictive cruise control formulatio...
peer reviewedThis paper presents a novel energy-efficient model-predictive cruise control formulatio...
This thesis investigates a method to save energy and thus also extend the range of a series-producti...
peer reviewedStochastic Model Predictive Control for Eco-Driving Assistance Systems in Electric Vehi...
peer reviewedThis paper presents the design of a real-time implementable energy-efficient model-pred...
peer reviewedA nonlinear problem formulation of an energy-saving model-predictive eco-cruise control...
The recent advancement in vehicular networking technology provides novel solutions for designing int...
The autonomous vehicle following problem has been extensively studied for at least two decades with...
peer reviewedThis paper presents the design of a novel energy-efficient model-predictive cruise cont...
In this paper, we propose a real-time nonlinear model predictive control (NMPC) strategy for stabili...
peer reviewedBattery Electric Vehicles are becoming a promising technology for road transportation. ...
AbstractThe energy consumption of comfort components influences the range of electric vehicles signi...
This work addresses the ecological-adaptive cruise control problem for connected electric vehicles b...
Increasing the range of electric vehicles (EVs) is possible with the help of eco-driving techniques,...
In this contribution we compare two different approaches to the implementation of a Model Predictive...
peer reviewedThis paper presents a novel energy-efficient model-predictive cruise control formulatio...
peer reviewedThis paper presents a novel energy-efficient model-predictive cruise control formulatio...
This thesis investigates a method to save energy and thus also extend the range of a series-producti...
peer reviewedStochastic Model Predictive Control for Eco-Driving Assistance Systems in Electric Vehi...
peer reviewedThis paper presents the design of a real-time implementable energy-efficient model-pred...
peer reviewedA nonlinear problem formulation of an energy-saving model-predictive eco-cruise control...
The recent advancement in vehicular networking technology provides novel solutions for designing int...
The autonomous vehicle following problem has been extensively studied for at least two decades with...
peer reviewedThis paper presents the design of a novel energy-efficient model-predictive cruise cont...
In this paper, we propose a real-time nonlinear model predictive control (NMPC) strategy for stabili...
peer reviewedBattery Electric Vehicles are becoming a promising technology for road transportation. ...
AbstractThe energy consumption of comfort components influences the range of electric vehicles signi...
This work addresses the ecological-adaptive cruise control problem for connected electric vehicles b...
Increasing the range of electric vehicles (EVs) is possible with the help of eco-driving techniques,...