Integration of Static and Self-motion-Based Depth Cues for Efficient Reaching and Locomotor Actions
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Otros documentos de la autoría: Grzyb, Beata J.; Castelló, Vicente; del Pobil, Angel P.; Antonelli, Marco
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Título
Integration of Static and Self-motion-Based Depth Cues for Efficient Reaching and Locomotor ActionsFecha de publicación
2012Editor
Springer Berlin HeidelbergISBN
978-3-642-33268-5ISSN
0302-9743; 1611-3349Cita bibliográfica
Grzyb, Beata J. ; Castelló, Vicente; Antonelli, Marco; Pobil, Àngel P. del. " Integration of Static and Self-motion-Based Depth Cues for Efficient Reaching and Locomotor Actions". En: Artificial Neural Networks and Machine Learning – ICANN 2012 – 22nd International Conference on Artificial Neural Networks, Lausanne, Switzerland, September 11-14, 2012, Proceedings, Part I / Villa, Alessandro E. P. [et al.] (Eds.). Berlin : Springer, 2012. (Lecture Notes in Computer Science; 7552) . ISBN: 978-3-642-33268-5, pp. 322-329Tipo de documento
info:eu-repo/semantics/bookPartVersión de la editorial
http://link.springer.com/chapter/10.1007%2F978-3-642-33269-2_41Palabras clave / Materias
Resumen
The common approach to estimate the distance of an object in computer vision and robotics is to use stereo vision. Stereopsis, however, provides good estimates only within near space and thus is more suitable for ... [+]
The common approach to estimate the distance of an object in computer vision and robotics is to use stereo vision. Stereopsis, however, provides good estimates only within near space and thus is more suitable for reaching actions. In order to successfully plan and execute an action in far space, other depth cues must be taken into account. Self-body movements, such as head and eye movements or locomotion can provide rich information of depth. This paper proposes a model for integration of static and self-motion-based depth cues for a humanoid robot. Our results show that self-motion-based visual cues improve the accuracy of distance perception and combined with other depth cues provide the robot with a robust distance estimator suitable for both reaching and walking actions. [-]
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