Kunwook Lee scite author profile

This paper suggests an efficient RRT* path planning for hyper-redundant inpipe robot. \Ve solve the path planning problem for the inpipe robot in two-dimensional pipeline where the robot has in total 12 degree-of-freedom, 9 pitching angles and the pose of the reference module of the robot. Such a robot inevitably suffers from a narrow passage prob lem when the robot passes through a miter, a T branch or an elbow pipe. Moreover, it is desired that the driving modules travel along the axis of pipe so that the driving wheels generate enough track ing force by making contact with the pipe inner sur face. \Ve suggest using RRT* for the path planing of the inpipe robot with the inverse kinematics to the joint location for the node extension and a cost opti mization about travel distance of modules to smooth out the zigzag paths of RRT* planner. Also, we use sliding windows for random sampling in the config uration space to take advantage of pipeline topolo gies. The simulation results show that the proposed approach finds drivable paths more efficiently than conventional methods.

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Motion planning of multifingered robotic hand for turning the cap

Choi

Shin

Lee

et al. 2011

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Kunwook Lee

Evaluation of fingertip F/T sensor for dexterous manipulation

A design framework for dexterous robotic hand

An RRT* path planning for kinematically constrained hyper-redundant inpipe robot

Motion planning of multifingered robotic hand for turning the cap

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