Swedish wheeled omnidirectional mobile robots: kinematics analysis and control
IEEE Transactions on Robotics
Power consumption modeling of skid-steer tracked mobile robots on rigid terrain
IEEE Transactions on Robotics
International Journal of Applied Mathematics and Computer Science - Special Section: Robot Control Theory Cezary Zielinski
Vector-Field-Orientation Tracking Control for a Mobile Vehicle Disturbed by the Skid-Slip Phenomena
Journal of Intelligent and Robotic Systems
ICIRA'10 Proceedings of the Third international conference on Intelligent robotics and applications - Volume Part I
Trajectory estimation of a skid-steering mobile robot incorporating free wheels
ICIRA'10 Proceedings of the Third international conference on Intelligent robotics and applications - Volume Part II
ICIRA'12 Proceedings of the 5th international conference on Intelligent Robotics and Applications - Volume Part II
Information Sciences: an International Journal
Exponential fields formulation for WMR navigation
Applied Bionics and Biomechanics - Personal Care Robotics
| Hi-index | 0.00 |
This paper aims to give a general and unifying presentation on modeling of wheel mobile robots (WMRs) in the presence of wheel skidding and slipping from the perspective of control design. We present kinematic models that explicitly relate perturbations to the vehicle skidding and slipping. Four configurations of mobile robots are considered, and perturbations due to skidding and slipping are categorically classified as input-additive, input multiplicative, and/or matched/unmatched perturbations. Furthermore, we relate the WMR's maneuverability with the vehicle controllability that provides a measure on the WMR ability to track a trajectory in the presence of wheel skidding and slipping. These classifications and formulations lay a base for the deployments of various control design techniques to overcome the addressed perturbations.