Vehicles equipped with multiple electric machines allow variable distribution of propulsive and regenerative braking torques between axles or even individual wheels of the car. Left/right torque vectoring (i.e., a torque shift between wheels of the same axle) has been treated extensively in the literature; however, fewer studies focus on the torque shift between the front and rear axles, namely, front/rear torque vectoring, a drivetrain topology more suitable for mass production since it reduces complexity and cost. In this paper, we propose an online control strategy that can enhance vehicle agility and “fun-to-drive” for such a topology or, if necessary, mitigate oversteer during sublimit handling conditions. It includes a front/rear torq...
Torque vectoring control is one of the most interesting techniques applicable to electric vehicles w...
Beyond the well-known benefits of electric and hybrid powertrains in terms of environmental impact, ...
Electric vehicles with multiple motors permit continuous direct yaw moment control, also called torq...
Vehicles equipped with multiple electric machines allow variable distribution of propulsive and rege...
The safety benefits of torque-vectoring control of electric vehicles with multiple drivetrains are w...
This paper deals with the description of current and future vehicle technology related to yaw moment...
When dealing with electric vehicles, different powertrain layouts can be exploited. Among them, the ...
© 2012 WEVA.This paper deals with the description of current and future vehicle technology related t...
In electric vehicles with multiple motors, the individual wheel torque control, i.e., the so-called ...
A key feature achievable by electric vehicles with multiple motors is torque-vectoring. Many control...
The study deals with the development of an energy-efficient torque-vectoring strategy for electric v...
Automotive industries are growing interest towards electric and hybrid vehicles which offer many adv...
Torque vectoring control is one of the most interesting techniques applicable to electric vehicles w...
Beyond the well-known benefits of electric and hybrid powertrains in terms of environmental impact, ...
Electric vehicles with multiple motors permit continuous direct yaw moment control, also called torq...
Vehicles equipped with multiple electric machines allow variable distribution of propulsive and rege...
The safety benefits of torque-vectoring control of electric vehicles with multiple drivetrains are w...
This paper deals with the description of current and future vehicle technology related to yaw moment...
When dealing with electric vehicles, different powertrain layouts can be exploited. Among them, the ...
© 2012 WEVA.This paper deals with the description of current and future vehicle technology related t...
In electric vehicles with multiple motors, the individual wheel torque control, i.e., the so-called ...
A key feature achievable by electric vehicles with multiple motors is torque-vectoring. Many control...
The study deals with the development of an energy-efficient torque-vectoring strategy for electric v...
Automotive industries are growing interest towards electric and hybrid vehicles which offer many adv...
Torque vectoring control is one of the most interesting techniques applicable to electric vehicles w...
Beyond the well-known benefits of electric and hybrid powertrains in terms of environmental impact, ...
Electric vehicles with multiple motors permit continuous direct yaw moment control, also called torq...