4:00 pm to 5:30 pm
Newell-Simon Hall 4305
Title: Model-free Sensorless Manipulation
Abstract:
This thesis is a study of 2D manipulation without sensing and planning, by exploring the effects of unplanned randomized action sequences on 2D object pose uncertainty. Our approach uses sensorless reorienting of an object to achieve a determined pose, regardless of the initial pose. Without using sensors and models of the object’s properties, this work shows that under some circumstances, a long enough sequence of random actions will also converge toward a determined final pose of the object. This is verified through several simulation and real robot experiments where randomized action sequences are shown to reduce entropy of the object pose distribution. The effects of varying object shapes, action sequences, and surface friction properties are also explored.
Committee:
Matthew T. Mason (Chair)
Oliver Kroemer
Nancy Pollard
Adithya Murali