Title :
Improved energy efficiency and vehicle dynamics for battery electric vehicles through torque vectoring control
Author :
Koehler, Stefan ; Viehl, Alexander ; Bringmann, Oliver ; Rosenstiel, Wolfgang
Author_Institution :
FZI Forschungszentrum Inf., Germany
fDate :
June 28 2015-July 1 2015
Abstract :
We propose a novel torque vectoring concept for battery electric vehicles propelled by wheel-individual electric machines. Besides vehicle dynamic aspects, mainly addressed in other works, we especially focus on energy efficiency improvements. Our approach is based on a comprehensive four-wheel model taking the tires´ nonlinear characteristics into account. A yaw torque optimized for vehicle dynamics and energy efficiency is calculated by a controller and allocated to the wheel hubs by a torque distribution block considering the efficiency characteristics of the electric machines. The resulting torque vectoring control system leads to an energy consumption reduction of around 10% for many driving situations, containing both high and low lateral acceleration scenarios.
Keywords :
acceleration control; battery powered vehicles; energy conservation; energy consumption; machine vector control; torque control; tyres; vehicle dynamics; wheels; battery electric vehicles; efficiency characteristics; energy consumption reduction; energy efficiency; four-wheel model; high lateral acceleration; low lateral acceleration; tires nonlinear characteristics; torque distribution block; torque vectoring control; vehicle dynamics; wheel hubs; wheel-individual electric machines; yaw torque; Acceleration; Electric machines; Tires; Torque; Vehicle dynamics; Vehicles; Wheels;
Conference_Titel :
Intelligent Vehicles Symposium (IV), 2015 IEEE
Conference_Location :
Seoul
DOI :
10.1109/IVS.2015.7225774
