Title :
Robot-Assisted Needle Steering
Author :
Reed, Kyle B. ; Majewicz, Ann ; Kallem, Vinutha ; Alterovitz, Ron ; Goldberg, Ken ; Cowan, Noah J. ; Okamura, Allison M.
Author_Institution :
Mech. Eng., Univ. of South Florida, Tampa, FL, USA
Abstract :
Needle insertion is a critical aspect of many medical treatments, diagnostic methods, and scientific studies, and is considered to be one of the simplest and most minimally invasive medical procedures. Robot-assisted needle steering has the potential to improve the effectiveness of existing medical procedures and enable new ones by allowing increased accuracy through more dexterous control of the needle-tip path and acquisition of targets not accessible by straight-line trajectories. In this article, we describe a robot-assisted needle-steering system that uses three integrated controllers: a motion planner concerned with guiding the needle around obstacles to a target in a desired plane, a planar controller that maintains the needle in the desired plane, and a torsion compensator that controls the needle-tip orientation about the axis of the needle shaft.
Keywords :
collision avoidance; compensation; medical robotics; motion control; patient diagnosis; patient treatment; medical diagnosis; medical treatment; minimally invasive medical procedure; motion planner; needle insertion; needle shaft; needle-tip orientation control; needle-tip path dexterous control; planar controller; robot-assisted needle steering; straight-line trajectory; torsion compensator; Biomedical imaging; Cameras; Force; Needles; Planning; Robots; Shafts;
Journal_Title :
Robotics & Automation Magazine, IEEE
DOI :
10.1109/MRA.2011.942997
