Title :
Control for slosh-free motion of an open container
Author :
Feddema, John T. ; Dohrmann, Clark R. ; Parker, Gordon G. ; Robinett, Rush D. ; Romero, Vicente J. ; Schmitt, Dan J.
Author_Institution :
Sandia Nat. Labs., Albuquerque, NM, USA
fDate :
2/1/1997 12:00:00 AM
Abstract :
This article describes two methods for controlling the surface of a liquid in an open container as it is being carried by a robot arm. Both methods make use of the fundamental mode of oscillation and damping of the liquid in the container as predicted from a boundary element model of the fluid. The first method uses an infinite impulse response filter to alter the acceleration profile so that the liquid remains level except for a single wave at the beginning and end of the motion. The motion of the liquid is similar to that of a simple pendulum. The second method removes the remaining two surface oscillations by tilting the container parallel to the beginning and ending wave. A double pendulum model is used to determine the trajectory for this motion. Experimental results of a FANUC S-800 robot moving a 230 mm diameter hemispherical container of water are presented
Keywords :
IIR filters; boundary-elements methods; damping; filtering theory; fluid oscillations; materials handling; path planning; 230 mm; FANUC S-800 robot; acceleration profile; boundary element model; damping; double pendulum model; fundamental mode; hemispherical container; infinite impulse response filter; liquid surface; open container; oscillation; robot arm; simple pendulum; slosh-free motion; Containers; Damping; Frequency estimation; IIR filters; Laplace equations; Motion control; Open loop systems; Robots; Rockets; Surface waves;
Journal_Title :
Control Systems, IEEE
