Title :
Development of a Crawling Microrobot With High Steering Capability and High Stability to Navigate Through a Sharply Bent Tubular Environment
Author :
Jaekwang Nam ; Gun Hee Jang ; Seung Mun Jeon ; Kyun Choi
Author_Institution :
Dept. of Mech. Eng., Hanyang Univ., Seoul, South Korea
Abstract :
We develop a crawling microrobot with high stability and high steering capability to navigate through a sharply bent tubular environment. The proposed microrobot can stably crawl forward and backward using the asymmetric friction force between a flexible leg and a wall. Our design can effectively change the moving direction even in sharply bent tubular environments using both the magnetic torque and the propulsive force generated by the crawling motion. The steering angle of the microrobot is simulated using a mathematical model of cantilever beam. We then perform various experiments to verify the validity of the proposed microrobot.
Keywords :
force control; friction; medical robotics; microrobots; path planning; patient treatment; torque control; asymmetric friction force; cantilever beam; crawling microrobot; magnetic torque; microrobot navigation; propulsive force; sharply bent tubular environment; steering angle; steering capability; Electron tubes; Force; Friction; Joining processes; Navigation; Torque; Wires; Crawling; friction; microrobot; steering; tubular environment;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2014.2324589
