Steering control for path tracking in autonomous vehicles is well documented in the literature. Also, continuous direct yaw moment control, i.e., torque-vectoring, applied to human-driven electric vehicles with multiple motors is extensively researched. However, the combination of both controllers is not yet well understood. This paper analyzes the benefits of torque-vectoring in an autonomous electric vehicle, either by integrating the torque-vectoring system in the path tracking controller, or through its separate implementation alongside the steering controller for path tracking. A selection of path tracking controllers is compared in obstacle avoidance tests simulated with an experimentally validated vehicle dynamics model. A genetic op...
In this paper, the effect of both passive and actively-modified vehicle handling characteristics on ...
Common vehicle always experience energy loss during cornering manoeuver. Thus, to ensure it did not ...
The safety benefits of torque-vectoring control of electric vehicles with multiple drivetrains are w...
Steering control for path tracking in autonomous vehicles is well documented in the literature. Also...
Electric vehicles with multiple motors permit continuous direct yaw moment control, also called torq...
In the last decades autonomous vehicles have been at the centre of the research in both the academic...
© 2012 WEVA.This paper deals with the description of current and future vehicle technology related t...
Beyond the well-known benefits of electric and hybrid powertrains in terms of environmental impact, ...
In electric vehicles with multiple motors, the individual wheel torque control, i.e., the so-called ...
When dealing with electric vehicles, different powertrain layouts can be exploited. Among them, the ...
A key feature achievable by electric vehicles with multiple motors is torque-vectoring. Many control...
This paper deals with the description of current and future vehicle technology related to yaw moment...
Automotive industries are growing interest towards electric and hybrid vehicles which offer many adv...
In this paper, the effect of both passive and actively-modified vehicle handling characteristics on ...
Common vehicle always experience energy loss during cornering manoeuver. Thus, to ensure it did not ...
The safety benefits of torque-vectoring control of electric vehicles with multiple drivetrains are w...
Steering control for path tracking in autonomous vehicles is well documented in the literature. Also...
Electric vehicles with multiple motors permit continuous direct yaw moment control, also called torq...
In the last decades autonomous vehicles have been at the centre of the research in both the academic...
© 2012 WEVA.This paper deals with the description of current and future vehicle technology related t...
Beyond the well-known benefits of electric and hybrid powertrains in terms of environmental impact, ...
In electric vehicles with multiple motors, the individual wheel torque control, i.e., the so-called ...
When dealing with electric vehicles, different powertrain layouts can be exploited. Among them, the ...
A key feature achievable by electric vehicles with multiple motors is torque-vectoring. Many control...
This paper deals with the description of current and future vehicle technology related to yaw moment...
Automotive industries are growing interest towards electric and hybrid vehicles which offer many adv...
In this paper, the effect of both passive and actively-modified vehicle handling characteristics on ...
Common vehicle always experience energy loss during cornering manoeuver. Thus, to ensure it did not ...
The safety benefits of torque-vectoring control of electric vehicles with multiple drivetrains are w...