Robust grasping under object pose uncertainty

A. Cameron; A. Censi; A. Krause; A. M. Okamura; A. Petrovskaya; B. Burns; J. Latombe; J. P. Gonzalez; K. Gadeyne; K. Hsiao; K. Hsiao; K. Hsiao; Kaijen Hsiao; L. H. Erickson; Leslie Pack Kaelbling; M. Erdmann; M. H. DeGroot; N. A. Melchior; P. C. Gaston; P. K. Allen; P. K. Allen; R. Alterovitz; R. E. Ellis; R. H. Taylor; S. Akella; S. M. LaValle; S. Prentice; S. Skiena; T. Okada; Tomás Lozano-Pérez

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Robust grasping under object pose uncertainty

Authors: A. Cameron
A. Censi
A. Krause
A. M. Okamura
A. Petrovskaya
B. Burns
J. Latombe
J. P. Gonzalez
K. Gadeyne
K. Hsiao
K. Hsiao
K. Hsiao
Kaijen Hsiao
L. H. Erickson
Leslie Pack Kaelbling
M. Erdmann
M. H. DeGroot
N. A. Melchior
P. C. Gaston
P. K. Allen
P. K. Allen
R. Alterovitz
R. E. Ellis
R. H. Taylor
S. Akella
S. M. LaValle
S. Prentice
S. Skiena
T. Okada
Tomás Lozano-Pérez
Publication date: 1 November 2010
Publisher: 'Springer Science and Business Media LLC'
Doi

Abstract

This paper presents a decision-theoretic approach to problems that require accurate placement of a robot relative to an object of known shape, such as grasping for assembly or tool use. The decision process is applied to a robot hand with tactile sensors, to localize the object on a table and ultimately achieve a target placement by selecting among a parameterized set of grasping and information-gathering trajectories. The process is demonstrated in simulation and on a real robot. This work has been previously presented in Hsiao et al. (Workshop on Algorithmic Foundations of Robotics (WAFR), 2008; Robotics Science and Systems (RSS), 2010) and Hsiao (Relatively robust grasping, Ph.D. thesis, Massachusetts Institute of Technology, 2009).National Science Foundation (U.S.) (Grant 0712012

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