Contents I. Introduction
Humans have a huge repertoire of regrasps. Some regrasps employ coordinated motions of many hand freedoms, dubbed ‘intrinsic motions’ of the hand. However humans also use the environment, like gravity or momentum, as an additional resource. For example, we find it quite natural to roll an object from our fingertips to our palm or to reorient chopsticks in our hand by pressing them against the table. Chavan-Daile referred to these actions as “extrinsic dexterity”. Much robotics research has focused on how to manipulate an object with the hand, using only the hand: intrinsic dexterity. But robots, lacking the dexterity of humans, should use the strategies provided by extrinsic dexterity, if anything, more often than humans. Chavan-Dafle describes several examples of extrinsic regrasps. This paper will explore, in detail, one of those regrasps: extrinsic pivoting. Pivoting is defined to be the rotation of an object about an axis determined by two contacts between the effector and object.
