An Active System for Visually-Guided Reaching in 3D across Binocular Fixations

An Active System for Visually-Guided Reaching in 3D across Binocular Fixations

Based on the importance of relative disparity between objects for accurate hand-eye coordination, this paper presents a biological approach inspired by the cortical neural architecture. So, the motor information is coded in egocentric coordinates obtained from the allocentric representation of the s...

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Main Authors: Ester Martinez-Martin, Angel P. del Pobil, Manuela Chessa, Fabio Solari, Silvio P. Sabatini
Format: Article
Language:English
Published: Hindawi Limited 2014-01-01
Series:The Scientific World Journal
Online Access:http://dx.doi.org/10.1155/2014/179391
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spelling doaj-256d37e6e1c34bfe92f6c64608b5d4d42020-11-25T02:07:14ZengHindawi LimitedThe Scientific World Journal2356-61401537-744X2014-01-01201410.1155/2014/179391179391An Active System for Visually-Guided Reaching in 3D across Binocular FixationsEster Martinez-Martin0Angel P. del Pobil1Manuela Chessa2Fabio Solari3Silvio P. Sabatini4Robotic Intelligence Lab, Department of Engineering and Computer Science, Universitat Jaume-I, 12071 Castellón, SpainRobotic Intelligence Lab, Department of Engineering and Computer Science, Universitat Jaume-I, 12071 Castellón, SpainDepartment of Informatics, Bioengineering, Robotics and System Engineering (DIBRIS), University of Genoa, 16145 Genoa, ItalyDepartment of Informatics, Bioengineering, Robotics and System Engineering (DIBRIS), University of Genoa, 16145 Genoa, ItalyDepartment of Informatics, Bioengineering, Robotics and System Engineering (DIBRIS), University of Genoa, 16145 Genoa, ItalyBased on the importance of relative disparity between objects for accurate hand-eye coordination, this paper presents a biological approach inspired by the cortical neural architecture. So, the motor information is coded in egocentric coordinates obtained from the allocentric representation of the space (in terms of disparity) generated from the egocentric representation of the visual information (image coordinates). In that way, the different aspects of the visuomotor coordination are integrated: an active vision system, composed of two vergent cameras; a module for the 2D binocular disparity estimation based on a local estimation of phase differences performed through a bank of Gabor filters; and a robotic actuator to perform the corresponding tasks (visually-guided reaching). The approach’s performance is evaluated through experiments on both simulated and real data.http://dx.doi.org/10.1155/2014/179391
collection DOAJ
language English
format Article
sources DOAJ
author Ester Martinez-Martin
Angel P. del Pobil
Manuela Chessa
Fabio Solari
Silvio P. Sabatini
spellingShingle Ester Martinez-Martin
Angel P. del Pobil
Manuela Chessa
Fabio Solari
Silvio P. Sabatini
An Active System for Visually-Guided Reaching in 3D across Binocular Fixations
The Scientific World Journal
author_facet Ester Martinez-Martin
Angel P. del Pobil
Manuela Chessa
Fabio Solari
Silvio P. Sabatini
author_sort Ester Martinez-Martin
title An Active System for Visually-Guided Reaching in 3D across Binocular Fixations
title_short An Active System for Visually-Guided Reaching in 3D across Binocular Fixations
title_full An Active System for Visually-Guided Reaching in 3D across Binocular Fixations
title_fullStr An Active System for Visually-Guided Reaching in 3D across Binocular Fixations
title_full_unstemmed An Active System for Visually-Guided Reaching in 3D across Binocular Fixations
title_sort active system for visually-guided reaching in 3d across binocular fixations
publisher Hindawi Limited
series The Scientific World Journal
issn 2356-6140
1537-744X
publishDate 2014-01-01
description Based on the importance of relative disparity between objects for accurate hand-eye coordination, this paper presents a biological approach inspired by the cortical neural architecture. So, the motor information is coded in egocentric coordinates obtained from the allocentric representation of the space (in terms of disparity) generated from the egocentric representation of the visual information (image coordinates). In that way, the different aspects of the visuomotor coordination are integrated: an active vision system, composed of two vergent cameras; a module for the 2D binocular disparity estimation based on a local estimation of phase differences performed through a bank of Gabor filters; and a robotic actuator to perform the corresponding tasks (visually-guided reaching). The approach’s performance is evaluated through experiments on both simulated and real data.
url http://dx.doi.org/10.1155/2014/179391
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