This paper presents a novel strategy for the control of the motor torques of a rear wheel drive electric vehicle with the objective of improving the lap time of the vehicle around a racetrack. The control strategy is based upon increasing the size of the friction circle by implementing torque vectoring and tire slip control. A two-level nested control strategy is used for the motor torque control. While the outer level is responsible for computing the desired corrective torque vectoring yaw moment, the inner level controls the motor torques to realize the desired corrective torque vectoring yaw moment while simultaneously controlling the wheel longitudinal slip. The performance of the developed controller is analyzed by simulating laps arou...
In electric vehicles with multiple motors, the individual wheel torque control, i.e., the so-called ...
International audienceThe present paper describes a torque controller for a vehicle equipped with 4 ...
In this paper we propose a constrained optimal control architecture to stabilize a vehicle near the ...
This paper presents a novel strategy for the control of the motor torques of a rear wheel drive ele...
When dealing with electric vehicles, different powertrain layouts can be exploited. Among them, the ...
The combination of continuously-acting high level controllers and control allocation techniques allo...
Independent-drive electric vehicles represent an advanced approach to vehicle dynamic control. The m...
This paper presents an integrated control of in-wheel motor (IWM) and electronic limited slip differ...
International audienceThe present paper describes a longitudinal control strategy in time-varying ro...
Electric vehicles with multiple motors permit continuous direct yaw moment control, also called torq...
Common vehicle always experience energy loss during cornering manoeuver. Thus, to ensure it did not ...
The anxiety of driving range and inconvenience of battery recharging has placed high requirements on...
This article describes the design of a traction control system in an electric Formula Student vehicl...
Thesis (Master's)--University of Washington, 2020This paper presents vehicle dynamic control algorit...
In electric vehicles with multiple motors, the individual wheel torque control, i.e., the so-called ...
International audienceThe present paper describes a torque controller for a vehicle equipped with 4 ...
In this paper we propose a constrained optimal control architecture to stabilize a vehicle near the ...
This paper presents a novel strategy for the control of the motor torques of a rear wheel drive ele...
When dealing with electric vehicles, different powertrain layouts can be exploited. Among them, the ...
The combination of continuously-acting high level controllers and control allocation techniques allo...
Independent-drive electric vehicles represent an advanced approach to vehicle dynamic control. The m...
This paper presents an integrated control of in-wheel motor (IWM) and electronic limited slip differ...
International audienceThe present paper describes a longitudinal control strategy in time-varying ro...
Electric vehicles with multiple motors permit continuous direct yaw moment control, also called torq...
Common vehicle always experience energy loss during cornering manoeuver. Thus, to ensure it did not ...
The anxiety of driving range and inconvenience of battery recharging has placed high requirements on...
This article describes the design of a traction control system in an electric Formula Student vehicl...
Thesis (Master's)--University of Washington, 2020This paper presents vehicle dynamic control algorit...
In electric vehicles with multiple motors, the individual wheel torque control, i.e., the so-called ...
International audienceThe present paper describes a torque controller for a vehicle equipped with 4 ...
In this paper we propose a constrained optimal control architecture to stabilize a vehicle near the ...