Consider the practically relevant situation in which a robotic system is assigned a task to be executed in an environment that contains moving obstacles. Generating collision-free motions that allow the robot to execute the task while complying with its control input limitations is a challenging problem, whose solution must be sought in the robot state space extended with time. We describe a general planning framework which can be tailored to robots described by either kinematic or dynamic models. The main component is a control-based scheme for producing configuration space subtrajectories along which the task constraint is continuously satisfied. The geometric motion and time history along each subtrajectory are generated separately in or...
This paper presents a method for motion planning in dynamic environments, subject to robot dynamics ...
We present a motion planning algorithm for cases where geometry of the robot cannot be neglected and...
In this paper; the problem of motion planning in environments with both known static obstacles and u...
Abstract—We present a randomized algorithm for planning dynamically feasible motions of robots subje...
We consider the problem of planning the motion of redundant robotic systems subject to geometric tas...
We consider the problem of planning collision-free motions for general (i.e., possibly nonholonomic)...
We consider the problem of planning collision-free motions for general (i.e., possibly nonholonomic)...
This paper addresses the motion planning problem in the presence of obstacles for underactuated robo...
This paper presents a novel randomized motion planner for robots that must achieve a specified goal ...
This report presents automatic motion planning algorithms for robotic manipulators performing a vari...
Robots that operate in natural human environments must be capable of handling uncertain dynamics and...
Abstract — We consider motion planning in the presence of obstacles for redundant robotic systems su...
This paper addresses the manipulation planning problem which deals with motion planning for robots m...
We present a general framework for generating trajectories and actuator forces that will take a robo...
Consider the problem of planning collision-free motions for a robot that is assigned a soft task con...
This paper presents a method for motion planning in dynamic environments, subject to robot dynamics ...
We present a motion planning algorithm for cases where geometry of the robot cannot be neglected and...
In this paper; the problem of motion planning in environments with both known static obstacles and u...
Abstract—We present a randomized algorithm for planning dynamically feasible motions of robots subje...
We consider the problem of planning the motion of redundant robotic systems subject to geometric tas...
We consider the problem of planning collision-free motions for general (i.e., possibly nonholonomic)...
We consider the problem of planning collision-free motions for general (i.e., possibly nonholonomic)...
This paper addresses the motion planning problem in the presence of obstacles for underactuated robo...
This paper presents a novel randomized motion planner for robots that must achieve a specified goal ...
This report presents automatic motion planning algorithms for robotic manipulators performing a vari...
Robots that operate in natural human environments must be capable of handling uncertain dynamics and...
Abstract — We consider motion planning in the presence of obstacles for redundant robotic systems su...
This paper addresses the manipulation planning problem which deals with motion planning for robots m...
We present a general framework for generating trajectories and actuator forces that will take a robo...
Consider the problem of planning collision-free motions for a robot that is assigned a soft task con...
This paper presents a method for motion planning in dynamic environments, subject to robot dynamics ...
We present a motion planning algorithm for cases where geometry of the robot cannot be neglected and...
In this paper; the problem of motion planning in environments with both known static obstacles and u...