Add to ORKGA dynamic model is presented for omnidirectional wheeled mobile robots, including wheel/motion surface slip. We derive the dynamics model, experimentally measure friction coefficients, and measure the force to cause slip (to validate our friction model). Dynamic simulation examples are presented to demonstrate omnidirectional motion with slip. After developing an improved friction model, compared to our initial model, the simulation results agree well with experimentally-measured trajectory data with slip. Initially, we thought that only high robot velocity and acceleration governed the resulting slipping motion. However, we learned that the rigid material existing in the discontinuities between omnidirectional wheel rollers plays an equall...
In order to model a Wheeled Mobile Robot (WMR) system to improve its maneuverability in a real envir...
A wheeled mobile robot is here modelled as a planar rigid body that rides on an arbitrary number of ...
In order to model a Wheeled Mobile Robot (WMR) system to improve its maneuverability in a real envir...
A dynamic model is presented for omni-directional wheeled mobile robots, including wheel/motion surf...
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...
Improving navigation performance of autonomous wheeled mobile robot (WMR) in a dynamic unstructured ...
In order to model a Wheeled Mobile Robot(WMR) system to improve its maneuverability in a real enviro...
It is widely accepted that dead-reckoning based on the rolling with no-slip condition on the wheels ...
Nonholonomic mobile robots are characterized by no-slip constraints. However, in many practical sit...
For a mobile manipulator consisting of a 4-wheel skid-steering mobile robot with a 7-DOF manipulator...
It is widely accepted that dead reckoning based on the rolling with no slip condition on wheels is n...
A wheeled mobile robot is here modelled as a planar rigid body that rides on an arbitrary number of ...
The motion of a differential drive mobile robot with consideration of slip at contact between the wh...
Improving navigation performance of autonomous wheeled mobile robot (WMR) in a dynamic unstructured ...
In order to model a Wheeled Mobile Robot (WMR) system to improve its maneuverability in a real envir...
A wheeled mobile robot is here modelled as a planar rigid body that rides on an arbitrary number of ...
In order to model a Wheeled Mobile Robot (WMR) system to improve its maneuverability in a real envir...
A dynamic model is presented for omni-directional wheeled mobile robots, including wheel/motion surf...
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...
Improving navigation performance of autonomous wheeled mobile robot (WMR) in a dynamic unstructured ...
In order to model a Wheeled Mobile Robot(WMR) system to improve its maneuverability in a real enviro...
It is widely accepted that dead-reckoning based on the rolling with no-slip condition on the wheels ...
Nonholonomic mobile robots are characterized by no-slip constraints. However, in many practical sit...
For a mobile manipulator consisting of a 4-wheel skid-steering mobile robot with a 7-DOF manipulator...
It is widely accepted that dead reckoning based on the rolling with no slip condition on wheels is n...
A wheeled mobile robot is here modelled as a planar rigid body that rides on an arbitrary number of ...
The motion of a differential drive mobile robot with consideration of slip at contact between the wh...
Improving navigation performance of autonomous wheeled mobile robot (WMR) in a dynamic unstructured ...
In order to model a Wheeled Mobile Robot (WMR) system to improve its maneuverability in a real envir...
A wheeled mobile robot is here modelled as a planar rigid body that rides on an arbitrary number of ...
In order to model a Wheeled Mobile Robot (WMR) system to improve its maneuverability in a real envir...