In this paper the development of electric vehicle traction control based on state of speed reconstruction of vehicle model that has the same acceleration condition between tire and chassis is studied. Vehicle is accelerated if the friction force takes place between tire and road. However, the traction force decreases even tends to zero on slippery road and torque input produces a large slip. Evidently, tire slip can be reduced by decreasing the applied torque to the tire. So the basic principle of the proposed method here compares the real vehicle tire speed condition with the model to determine the torque in order to reduce the slip. Tire speed is controlled in order to follow the reference value that is calculated from the...
The In this paper, a simulator of a one-wheel Electric Vehicle system is designed for testing an ant...
In this thesis, the active differential working based on the principle of the torque transfer is dea...
The vehicle safety system is divided into two groups that are passive safety and active safety syste...
In this paper the development of electric vehicle traction control based on state of s...
This article belongs to the Special Issue Human Machine Interaction in Automated Vehicles.Tire slip ...
Traction control is one of the most important functions in vehicle drivetrain systems. When a vehicl...
The real-time change of tire-road friction coefficient is one of the important factors that influenc...
In this paper, a robust wheel slip control system based on a sliding mode controller is proposed for...
Differential is designed to enable car to turn easily because differential permits one wheel to turn...
A control algorithm is presented here, that controls the brake forces of a two-axle road vehicle in ...
A new drive control system which has an effect on controlling the vehicle slip during accelerating a...
This report explores the tools required to develop traction control for an electric vehicle. A start...
Traction Control System is an innovative automotive technology to prevent stability. Research impres...
Copyright © 2013 Shaobo Li, Tohru Kawabe. This is an open access article distributed under the Creat...
thesisMobile robots are used to venture through types of environments, at low wheel speeds, where wh...
The In this paper, a simulator of a one-wheel Electric Vehicle system is designed for testing an ant...
In this thesis, the active differential working based on the principle of the torque transfer is dea...
The vehicle safety system is divided into two groups that are passive safety and active safety syste...
In this paper the development of electric vehicle traction control based on state of s...
This article belongs to the Special Issue Human Machine Interaction in Automated Vehicles.Tire slip ...
Traction control is one of the most important functions in vehicle drivetrain systems. When a vehicl...
The real-time change of tire-road friction coefficient is one of the important factors that influenc...
In this paper, a robust wheel slip control system based on a sliding mode controller is proposed for...
Differential is designed to enable car to turn easily because differential permits one wheel to turn...
A control algorithm is presented here, that controls the brake forces of a two-axle road vehicle in ...
A new drive control system which has an effect on controlling the vehicle slip during accelerating a...
This report explores the tools required to develop traction control for an electric vehicle. A start...
Traction Control System is an innovative automotive technology to prevent stability. Research impres...
Copyright © 2013 Shaobo Li, Tohru Kawabe. This is an open access article distributed under the Creat...
thesisMobile robots are used to venture through types of environments, at low wheel speeds, where wh...
The In this paper, a simulator of a one-wheel Electric Vehicle system is designed for testing an ant...
In this thesis, the active differential working based on the principle of the torque transfer is dea...
The vehicle safety system is divided into two groups that are passive safety and active safety syste...