Open AccessPose Changes From a Different Point of View
Author(s) -
Gregory S. Chirikjian,
Robert Mahony,
Sipu Ruan,
Jochen Trumpf
Publication year - 2018
Publication title -
journal of mechanisms and robotics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.591
H-Index - 45
eISSN - 1942-4310
pISSN - 1942-4302
DOI - 10.1115/1.4039121
Subject(s) - rigid body , euclidean group , semidirect product , affine transformation , rotation matrix , rotation (mathematics) , mathematics , group (periodic table) , artificial intelligence , computer vision , computer science , space (punctuation) , reference frame , displacement (psychology) , affine space , geometry , frame (networking) , physics , classical mechanics , quantum mechanics , psychology , telecommunications , psychotherapist , operating system
For more than a century, rigid-body displacements have been viewed as affine transformations described as homogeneous transformation matrices wherein the linear part is a rotation matrix. In group-theoretic terms, this classical description makes rigid-body motions a semidirect product. The distinction between a rigid-body displacement of Euclidean space and a change in pose from one reference frame to another is usually not articulated well in the literature. Here, we show that, remarkably, when changes in pose are viewed from a space-fixed reference frame, the space of pose changes can be endowed with a direct product group structure, which is different from the semidirect product structure of the space of motions. We then show how this new perspective can be applied more naturally to problems such as monitoring the state of aerial vehicles from the ground, or the cameras in a humanoid robot observing pose changes of its hands.
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