This paper presents an optimum tire force distribution method for 6WD/6WS(6-Wheel-Drive and 6-Wheel-Steering) electric vehicles. Using an independent steering and driving system, the performance of 6WD/6WS vehicles can be improved, as, for example, with respect to their maneuverability under low speed and their stability at high speed. Therefore, there should be a control strategy for finding the optimum tire forces that satisfy the driver���s command and minimize energy consumption. From the driver���s commands (steering angle and accelerator/brake pedal stroke), the desired yaw moment, the desired lateral force, and the desired longitudinal force were obtained. These three values were distributed to each wheel as the torque and the steeri...
Light-Duty Electric Vehicle (LDEV) with a distributed drive powertrain provides several potential ad...
The handling characteristic is a classical topic of vehicle dynamics. Usually, vehicle handling is s...
During vehicle operation, the control objectives of stability, handling, energy consumption and comf...
Multi-axle driving vehicles that are used in special environments require high driving performance, ...
The combination of continuously-acting high level controllers and control allocation techniques allo...
Vehicle handling in steady-state and transient conditions can be significantly enhanced with the con...
This paper describes a driving torque distribution method for front–and-rear-wheel-independent-drive...
Torque distribution control is a key technique for four-wheel independent-drive electric vehicles be...
The continuous, precise modulation of the driving and braking torque of each wheel is considered to ...
Light-Duty Electric Vehicle (LDEV) with a distributed drive powertrain provides several potential a...
The in-wheel electric vehicle is expected to be a popular next-generation vehicle because an in-whee...
Common vehicle always experience energy loss during cornering manoeuver. Thus, to ensure it did not ...
Electric vehicles (EVs) with four individually controlled drivetrains are over-actuated systems, and...
The wheel driving torque on four-wheel-drive electric vehicles (4WDEVs) can be modulated precisely a...
To improve the curve driving stability and safety under critical maneuvers for four-wheel-independen...
Light-Duty Electric Vehicle (LDEV) with a distributed drive powertrain provides several potential ad...
The handling characteristic is a classical topic of vehicle dynamics. Usually, vehicle handling is s...
During vehicle operation, the control objectives of stability, handling, energy consumption and comf...
Multi-axle driving vehicles that are used in special environments require high driving performance, ...
The combination of continuously-acting high level controllers and control allocation techniques allo...
Vehicle handling in steady-state and transient conditions can be significantly enhanced with the con...
This paper describes a driving torque distribution method for front–and-rear-wheel-independent-drive...
Torque distribution control is a key technique for four-wheel independent-drive electric vehicles be...
The continuous, precise modulation of the driving and braking torque of each wheel is considered to ...
Light-Duty Electric Vehicle (LDEV) with a distributed drive powertrain provides several potential a...
The in-wheel electric vehicle is expected to be a popular next-generation vehicle because an in-whee...
Common vehicle always experience energy loss during cornering manoeuver. Thus, to ensure it did not ...
Electric vehicles (EVs) with four individually controlled drivetrains are over-actuated systems, and...
The wheel driving torque on four-wheel-drive electric vehicles (4WDEVs) can be modulated precisely a...
To improve the curve driving stability and safety under critical maneuvers for four-wheel-independen...
Light-Duty Electric Vehicle (LDEV) with a distributed drive powertrain provides several potential ad...
The handling characteristic is a classical topic of vehicle dynamics. Usually, vehicle handling is s...
During vehicle operation, the control objectives of stability, handling, energy consumption and comf...