Equations are derived to govern the motion of vehicles which move on rolling wheels. A relation between the centers of curvature of the trajectories of the wheels and the center of rotation of the vehicle is established. From this relation the general kinematic laws of motion are derived. Applications to questions of offtracking (the difference between the trajectories of the front and back wheels of the vehicle) and optimal steering (how to steer around a tight corner) are considered
In this paper the selected phenomena related to motor vehicle’s motion have been considered basing o...
Introducing an independent four-wheel-steering (4WS) system, we are able to design an autodriver to ...
Abstract:- The algorithm formula in explicit format for the maneuver of wheeled mobile robot (WMR) w...
A wheeled mobile robot is here modelled as a planar rigid body that rides on an arbitrary number of ...
A wheeled mobile robot is here modelled as a planar rigid body that rides on an arbitrary number of ...
In modern sporty luxury cars it is becoming more and more important to control the body and wheel mo...
The paper deals with a vehicle where each front wheel is equipped with its own apparatus of traction...
Abstract. The parameters impacting vehicle kinematics of turn – a time period needed for turning a s...
A given road can be expressed mathematically in a global (or world) coordinate frame. Following the ...
One of the most important features of motor vehicles is their steering maneuverability. Ways of dete...
One of the most important features of motor vehicles is their steering maneuverability. Ways of dete...
Directional control of a vehicle or a rover can be performed by subdividing the vehicle in various m...
Tractors when performing agricultural and transport work move in a straight or curved trajectory, th...
This chapter provides a basic insight into the two-wheeled vehicle dynamics to be applied to vehicle...
In the article, using the classical provisions of theoretical mechanics, various methods of construc...
In this paper the selected phenomena related to motor vehicle’s motion have been considered basing o...
Introducing an independent four-wheel-steering (4WS) system, we are able to design an autodriver to ...
Abstract:- The algorithm formula in explicit format for the maneuver of wheeled mobile robot (WMR) w...
A wheeled mobile robot is here modelled as a planar rigid body that rides on an arbitrary number of ...
A wheeled mobile robot is here modelled as a planar rigid body that rides on an arbitrary number of ...
In modern sporty luxury cars it is becoming more and more important to control the body and wheel mo...
The paper deals with a vehicle where each front wheel is equipped with its own apparatus of traction...
Abstract. The parameters impacting vehicle kinematics of turn – a time period needed for turning a s...
A given road can be expressed mathematically in a global (or world) coordinate frame. Following the ...
One of the most important features of motor vehicles is their steering maneuverability. Ways of dete...
One of the most important features of motor vehicles is their steering maneuverability. Ways of dete...
Directional control of a vehicle or a rover can be performed by subdividing the vehicle in various m...
Tractors when performing agricultural and transport work move in a straight or curved trajectory, th...
This chapter provides a basic insight into the two-wheeled vehicle dynamics to be applied to vehicle...
In the article, using the classical provisions of theoretical mechanics, various methods of construc...
In this paper the selected phenomena related to motor vehicle’s motion have been considered basing o...
Introducing an independent four-wheel-steering (4WS) system, we are able to design an autodriver to ...
Abstract:- The algorithm formula in explicit format for the maneuver of wheeled mobile robot (WMR) w...