posted on 2002-01-01, 00:00authored byMark Moll, Ken Goldberg, Michael A. Erdmann, Ron Fearing
Orienting parts that measure only a few micrometers in diameter introduces several challenges that need not be
considered at the macro-scale. First, there are several kinds of sticking effects due to Van der Waals forces and
static electricity which complicate hand-off motions and release of a part. Second, the degrees of freedom of
micro-manipulators are limited. This paper proposes a pair of manipulation primitives and a complete algorithm
that addresses these challenges. We will show that a sequence of these two manipulation primitives can uniquely
orient any asymmetric part while maintaining contact without sensing. This allows us to apply the same plan to
many (identical) parts simultaneously. For asymmetric parts we can find a plan of length O (n) in O (n ) time that
orients the part, where n is the number of vertices.