Vision-based 3D motion reconstruction of octopus arm swimming and comparison with an 8-arm underwater robot

Asimina Kazakidi; Xenophon Zabulis; Dimitris Tsakiris

doi:10.1109/ICRA.2015.7139340

Vision-based 3D motion reconstruction of octopus arm swimming and comparison with an 8-arm underwater robot

Asimina Kazakidi, Xenophon Zabulis, Dimitris Tsakiris

Department of Computer Science

Research output: Contribution to conference › Paper › peer-review

20 Citations (Scopus)

Abstract

The octopus uses the arm-swimming behavior primarily for escape, defense, or foraging. This mode of locomotion is comprised of two strokes, with the arms opening slowly and closing rapidly, and generally results in considerable propulsive acceleration. In light of the recent development by our group of an octopus-like eight-arm underwater robot, we are interested to analyze the details of the biological arm swimming motion, in order to understand its kinematics. In this paper, we address methodological aspects of the 3D reconstruction process of octopus arm trajectories, based on computer vision, and present the resulting arm swimming movement of a benthic common octopus. The 3D trajectories of all eight octopus arms were tracked and analyzed, providing information about speed, acceleration and arm elongation. The animal's performance is then used for a direct comparison with our 8-arm robotic swimmer. The data obtained provide new kinematic information about this, relatively unknown, propulsive mode, which can be exploited for multi-functional underwater robots

Original language	English
Pages	1178-1183
Number of pages	6
DOIs	https://doi.org/10.1109/ICRA.2015.7139340
Publication status	Published - 01 May 2015
Event	IEEE International Conference on Robotics and Automation (ICRA 2015) - Seattle, United States of America Duration: 26 May 2015 → 30 May 2015

Conference

Conference	IEEE International Conference on Robotics and Automation (ICRA 2015)
Abbreviated title	ICRA 2015
Country/Territory	United States of America
City	Seattle
Period	26 May 2015 → 30 May 2015

Keywords

three-dimensional displays
trajectory
cameras
robots
image reconstruction
acceleration
image segmentation

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10.1109/ICRA.2015.7139340

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title = "Vision-based 3D motion reconstruction of octopus arm swimming and comparison with an 8-arm underwater robot",

abstract = "The octopus uses the arm-swimming behavior primarily for escape, defense, or foraging. This mode of locomotion is comprised of two strokes, with the arms opening slowly and closing rapidly, and generally results in considerable propulsive acceleration. In light of the recent development by our group of an octopus-like eight-arm underwater robot, we are interested to analyze the details of the biological arm swimming motion, in order to understand its kinematics. In this paper, we address methodological aspects of the 3D reconstruction process of octopus arm trajectories, based on computer vision, and present the resulting arm swimming movement of a benthic common octopus. The 3D trajectories of all eight octopus arms were tracked and analyzed, providing information about speed, acceleration and arm elongation. The animal's performance is then used for a direct comparison with our 8-arm robotic swimmer. The data obtained provide new kinematic information about this, relatively unknown, propulsive mode, which can be exploited for multi-functional underwater robots",

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author = "Asimina Kazakidi and Xenophon Zabulis and Dimitris Tsakiris",

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Vision-based 3D motion reconstruction of octopus arm swimming and comparison with an 8-arm underwater robot. / Kazakidi, Asimina; Zabulis, Xenophon; Tsakiris, Dimitris.
2015. 1178-1183 Paper presented at IEEE International Conference on Robotics and Automation (ICRA 2015), Seattle, United States of America.

Research output: Contribution to conference › Paper › peer-review

TY - CONF

T1 - Vision-based 3D motion reconstruction of octopus arm swimming and comparison with an 8-arm underwater robot

AU - Kazakidi, Asimina

AU - Zabulis, Xenophon

AU - Tsakiris, Dimitris

PY - 2015/5/1

Y1 - 2015/5/1

N2 - The octopus uses the arm-swimming behavior primarily for escape, defense, or foraging. This mode of locomotion is comprised of two strokes, with the arms opening slowly and closing rapidly, and generally results in considerable propulsive acceleration. In light of the recent development by our group of an octopus-like eight-arm underwater robot, we are interested to analyze the details of the biological arm swimming motion, in order to understand its kinematics. In this paper, we address methodological aspects of the 3D reconstruction process of octopus arm trajectories, based on computer vision, and present the resulting arm swimming movement of a benthic common octopus. The 3D trajectories of all eight octopus arms were tracked and analyzed, providing information about speed, acceleration and arm elongation. The animal's performance is then used for a direct comparison with our 8-arm robotic swimmer. The data obtained provide new kinematic information about this, relatively unknown, propulsive mode, which can be exploited for multi-functional underwater robots

AB - The octopus uses the arm-swimming behavior primarily for escape, defense, or foraging. This mode of locomotion is comprised of two strokes, with the arms opening slowly and closing rapidly, and generally results in considerable propulsive acceleration. In light of the recent development by our group of an octopus-like eight-arm underwater robot, we are interested to analyze the details of the biological arm swimming motion, in order to understand its kinematics. In this paper, we address methodological aspects of the 3D reconstruction process of octopus arm trajectories, based on computer vision, and present the resulting arm swimming movement of a benthic common octopus. The 3D trajectories of all eight octopus arms were tracked and analyzed, providing information about speed, acceleration and arm elongation. The animal's performance is then used for a direct comparison with our 8-arm robotic swimmer. The data obtained provide new kinematic information about this, relatively unknown, propulsive mode, which can be exploited for multi-functional underwater robots

KW - three-dimensional displays

KW - trajectory

KW - cameras

KW - robots

KW - image reconstruction

KW - acceleration

KW - image segmentation

U2 - 10.1109/ICRA.2015.7139340

DO - 10.1109/ICRA.2015.7139340

M3 - Paper

SP - 1178

EP - 1183

T2 - IEEE International Conference on Robotics and Automation (ICRA 2015)

Y2 - 26 May 2015 through 30 May 2015

ER -

Vision-based 3D motion reconstruction of octopus arm swimming and comparison with an 8-arm underwater robot

Abstract

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Keywords

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