Title :
Kinematic controllability for decoupled trajectory planning in underactuated mechanical systems
Author :
Bullo, Francesco ; Lynch, Kevin M.
Author_Institution :
Coordinated Sci. Lab., Illinois Univ., Urbana, IL, USA
fDate :
8/1/2001 12:00:00 AM
Abstract :
We introduce the notion of kinematic controllability for second-order underactuated mechanical systems. For systems satisfying this property, the problem of planning fast collision-free trajectories between zero velocity states can be decoupled into the computationally simpler problems of path planning for a kinematic system followed by time-optimal time scaling. While this approach is well known for fully actuated systems, until now there has been no way to apply it to underactuated dynamic systems. The results in this paper form the basis for efficient collision-free trajectory planning for a class of underactuated mechanical systems including manipulators and vehicles in space and underwater environments
Keywords :
collision avoidance; computational complexity; controllability; robot kinematics; time optimal control; Space vehicles; decoupled trajectory planning; efficient collision-free trajectory planning; kinematic controllability; manipulators; path planning; second-order underactuated mechanical systems; time-optimal time scaling; underactuated dynamic systems; underwater vehicles; zero velocity states; Actuators; Controllability; Manipulator dynamics; Mechanical systems; Orbital robotics; Path planning; Robot kinematics; Space vehicles; Trajectory; Vehicle dynamics;
Journal_Title :
Robotics and Automation, IEEE Transactions on
