Add to ORKGA wheeled mobile robot is here modelled as a planar rigid body that rides on an arbitrary number of wheels. The relationship between the rigid body motion of the robot and the steering and drive rates of wheels is developed. In particular, conditions are obtained that guarantee that rolling without skidding or sliding can occur. Explicit differential equations are derived to describe the rigid body motions that arise in such ideal rolling trajectories. The simplest wheel configuration that permits access of arbitrary rigid-body motions is determined. Then the question of slippage due to misalignment of the wheels is investigated by minimization of a nonsmooth convex dissipation functional that is derived from Coulomb’s Law of friction. It i...
Improving navigation performance of autonomous wheeled mobile robot (WMR) in a dynamic unstructured ...
Mobile robots are commonly used to achieve tasks involving tracking a desired trajectory and followi...
A dynamic model is presented for omni-directional wheeled mobile robots, including wheel/motion surf...
A wheeled mobile robot is here modelled as a planar rigid body that rides on an arbitrary number of ...
This paper deals with the kinematic analysis of a wheeled mobile robot (WMR) moving on an uneven ter...
This paper deals with the kinematic analysis of a wheeled mobile robot (WMR) moving on an uneven ter...
It is widely accepted that dead-reckoning based on the rolling with no-slip condition on the wheels ...
This paper deals with the kinematic analysis of a wheeled mobile robot (WMR) moving on uneven terrai...
It is widely accepted that dead reckoning based on the rolling with no slip condition on wheels is n...
Wheeled Mobile Robots (WMRs) are known to be nonholonomic systems, and most dynamic models of WMRs a...
Wheeled Mobile Robots (WMRs) are known to be nonholonomic systems, and most dynamic models of WMRs a...
It is known in literature that a wheeled mobile robot (WMR), with fixed length axle, will undergo sl...
This paper presents a modeling method called "Wheel-Center Modeling" for kinematics of a w...
A dynamic model is presented for omnidirectional wheeled mobile robots, including wheel/motion surfa...
The use of mobile robots in applications is steadily increasing, both in the industrial and the serv...
Improving navigation performance of autonomous wheeled mobile robot (WMR) in a dynamic unstructured ...
Mobile robots are commonly used to achieve tasks involving tracking a desired trajectory and followi...
A dynamic model is presented for omni-directional wheeled mobile robots, including wheel/motion surf...
A wheeled mobile robot is here modelled as a planar rigid body that rides on an arbitrary number of ...
This paper deals with the kinematic analysis of a wheeled mobile robot (WMR) moving on an uneven ter...
This paper deals with the kinematic analysis of a wheeled mobile robot (WMR) moving on an uneven ter...
It is widely accepted that dead-reckoning based on the rolling with no-slip condition on the wheels ...
This paper deals with the kinematic analysis of a wheeled mobile robot (WMR) moving on uneven terrai...
It is widely accepted that dead reckoning based on the rolling with no slip condition on wheels is n...
Wheeled Mobile Robots (WMRs) are known to be nonholonomic systems, and most dynamic models of WMRs a...
Wheeled Mobile Robots (WMRs) are known to be nonholonomic systems, and most dynamic models of WMRs a...
It is known in literature that a wheeled mobile robot (WMR), with fixed length axle, will undergo sl...
This paper presents a modeling method called "Wheel-Center Modeling" for kinematics of a w...
A dynamic model is presented for omnidirectional wheeled mobile robots, including wheel/motion surfa...
The use of mobile robots in applications is steadily increasing, both in the industrial and the serv...
Improving navigation performance of autonomous wheeled mobile robot (WMR) in a dynamic unstructured ...
Mobile robots are commonly used to achieve tasks involving tracking a desired trajectory and followi...
A dynamic model is presented for omni-directional wheeled mobile robots, including wheel/motion surf...