The anxiety of driving range and inconvenience of battery recharging has placed high requirements on the energy efficiency of electric vehicles. To reduce driving-wheel slip energy consumption while cornering, a torque vectoring control strategy for a rear-wheel independent-drive (RWID) electric vehicle is proposed. First, the longitudinal linear stiffness of each driving wheel is estimated by using the approach of recursive least squares. Then, an initial differential torque is calculated for reducing their overall tire slippage energy dissipation. However, before the differential torque is applied to the two side of driving wheels, an acceleration slip regulation (ASR) is introduced into the overall control strategy to avoid entering into...
In this paper, a robust wheel slip control system based on a sliding mode controller is proposed for...
Vehicles equipped with multiple electric machines allow variable distribution of propulsive and rege...
In this paper we propose a constrained optimal control architecture to stabilize a vehicle near the ...
In electric vehicles with multiple motors, the individual wheel torque control, i.e., the so-called ...
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...
The combination of continuously-acting high level controllers and control allocation techniques allo...
This paper presents a novel strategy for the control of the motor torques of a rear wheel drive elec...
Tire forces are at the heart of the dynamic qualities of vehicles. With the advent of electric vehic...
This paper describes a driving torque distribution method for front–and-rear-wheel-independent-drive...
Anti-slip control, as a fundamental technique of vehicle stability control, prevents loss of control...
When dealing with electric vehicles, different powertrain layouts can be exploited. Among them, the ...
Independent-drive electric vehicles represent an advanced approach to vehicle dynamic control. The m...
Common vehicle always experience energy loss during cornering manoeuver. Thus, to ensure it did not ...
The continuous, precise modulation of the driving and braking torque of each wheel is considered to ...
In this paper, a robust wheel slip control system based on a sliding mode controller is proposed for...
Vehicles equipped with multiple electric machines allow variable distribution of propulsive and rege...
In this paper we propose a constrained optimal control architecture to stabilize a vehicle near the ...
In electric vehicles with multiple motors, the individual wheel torque control, i.e., the so-called ...
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...
The combination of continuously-acting high level controllers and control allocation techniques allo...
This paper presents a novel strategy for the control of the motor torques of a rear wheel drive elec...
Tire forces are at the heart of the dynamic qualities of vehicles. With the advent of electric vehic...
This paper describes a driving torque distribution method for front–and-rear-wheel-independent-drive...
Anti-slip control, as a fundamental technique of vehicle stability control, prevents loss of control...
When dealing with electric vehicles, different powertrain layouts can be exploited. Among them, the ...
Independent-drive electric vehicles represent an advanced approach to vehicle dynamic control. The m...
Common vehicle always experience energy loss during cornering manoeuver. Thus, to ensure it did not ...
The continuous, precise modulation of the driving and braking torque of each wheel is considered to ...
In this paper, a robust wheel slip control system based on a sliding mode controller is proposed for...
Vehicles equipped with multiple electric machines allow variable distribution of propulsive and rege...
In this paper we propose a constrained optimal control architecture to stabilize a vehicle near the ...