Publication | Closed Access
Reactive trajectory deformation for nonholonomic systems: application to mobile robots
28
Citations
6
References
2003
Year
Unknown Venue
Robot KinematicsEngineeringMechanical EngineeringField RoboticsNonholonomic SystemsAdvanced Motion ControlTrajectory PlanningTrajectory OptimizationKinematicsRobot LearningHealth SciencesPath PlanningRobot Motion PlanningMechatronicsNonholonomic ConstraintsRobot ControlMotion PlanningAutomationMechanical SystemsInitial TrajectoryDifferential Wheeled RobotRoboticsReactive Trajectory Deformation
In this paper, we propose a novel approach to reactive obstacle avoidance for nonholonomic systems. The method is based on the deformation of an initial trajectory computed by a motion planner. The deformation we perform keeps the nonholonomic constraints of the system satisfied. The deformation algorithm is based on a potential field generated by obstacles. We applied this approach to the mobile robot Hilare 2 towing a trailer and we carried out some experiments.
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