Title :
Remote Manipulation With a Stationary Computer-Controlled Magnetic Dipole Source
Author :
Petruska, Andrew J. ; Mahoney, Arthur W. ; Abbott, Jake J.
Author_Institution :
Dept. of Mech. Eng., Univ. of Utah, Salt Lake City, UT, USA
Abstract :
In this paper, we examine several magnetic control methods that utilize the fully controllable dipole field generated by the single stationary dipole source. Since the magnetic field generated by a dipole source is nonuniform, it applies both forces and torques to magnetic objects and can be used to manipulate magnetic tools. Recently, the Omnimagnet, a computer-controlled magnetic dipole source capable of varying both its dipole-moment direction and magnitude, was developed to perform magnetic manipulation. The equations and methods are developed generally; therefore, they can be applied to any omnidirectional dipole source, but their effectiveness is demonstrated using the Omnimagnet.
Keywords :
control engineering computing; electromagnets; force control; magnetic fields; magnetic moments; micromanipulators; telerobotics; torque control; Omnimagnet; controllable dipole field generation; dipole moment direction; force control method; magnetic control method; magnetic field generation; magnetic tools manipulation; omnidirectional dipole source; remote manipulation; stationary computer controlled magnetic dipole source; torque control method; Force; Magnetic cores; Magnetic moments; Magnetic resonance imaging; Robots; Torque; Vectors; Magnetic manipulation; medical robotics; microrobotics; omnimagnet; teleoperation;
Journal_Title :
Robotics, IEEE Transactions on
DOI :
10.1109/TRO.2014.2340111
