The safety benefits of torque-vectoring control of electric vehicles with multiple drivetrains are well known and extensively discussed in the literature. Also, several authors analyze wheel torque control allocation algorithms for reducing the energy consumption while obtaining the wheel torque demand and reference yaw moment specified by the higher layer of a torque-vectoring controller. Based on a set of novel experimental results, this study demonstrates that further significant energy consumption reductions can be achieved through the appropriate tuning of the reference understeer characteristics. The effects of drivetrain power losses and tire slip power losses are discussed for the case of identical drivetrains at the four vehicle co...
The paper discusses novel computationally efficient torque distribution strategies for electric vehi...
The continuous, precise modulation of the driving and braking torque of each wheel is considered to ...
Electric vehicles with multiple motors allow torque-vectoring, which generates a yaw moment by assig...
The safety benefits of torque-vectoring control of electric vehicles with multiple drivetrains are w...
The safety benefits of torque-vectoring control of electric vehicles with multiple drivetrains are w...
The benefits of individual wheel torque control, or torque vectoring, in terms of vehicle dynamics b...
In electric vehicles with multiple motors, the individual wheel torque control, i.e., the so-called ...
Tire forces are at the heart of the dynamic qualities of vehicles. With the advent of electric vehic...
Electric Vehicles (EVs) with multiple motors permit to design the steady-state cornering response by...
The paper discusses novel computationally efficient torque distribution strategies for electric vehi...
A key feature achievable by electric vehicles with multiple motors is torque-vectoring. Many control...
Electric Vehicles (EVs) with multiple motors permit to design the steady-state cornering response by...
The study deals with the development of an energy-efficient torque-vectoring strategy for electric v...
Torque vectoring control is one of the most interesting techniques applicable to electric vehicles w...
The paper discusses novel computationally efficient torque distribution strategies for electric vehi...
The continuous, precise modulation of the driving and braking torque of each wheel is considered to ...
Electric vehicles with multiple motors allow torque-vectoring, which generates a yaw moment by assig...
The safety benefits of torque-vectoring control of electric vehicles with multiple drivetrains are w...
The safety benefits of torque-vectoring control of electric vehicles with multiple drivetrains are w...
The benefits of individual wheel torque control, or torque vectoring, in terms of vehicle dynamics b...
In electric vehicles with multiple motors, the individual wheel torque control, i.e., the so-called ...
Tire forces are at the heart of the dynamic qualities of vehicles. With the advent of electric vehic...
Electric Vehicles (EVs) with multiple motors permit to design the steady-state cornering response by...
The paper discusses novel computationally efficient torque distribution strategies for electric vehi...
A key feature achievable by electric vehicles with multiple motors is torque-vectoring. Many control...
Electric Vehicles (EVs) with multiple motors permit to design the steady-state cornering response by...
The study deals with the development of an energy-efficient torque-vectoring strategy for electric v...
Torque vectoring control is one of the most interesting techniques applicable to electric vehicles w...
The paper discusses novel computationally efficient torque distribution strategies for electric vehi...
The continuous, precise modulation of the driving and braking torque of each wheel is considered to ...
Electric vehicles with multiple motors allow torque-vectoring, which generates a yaw moment by assig...