论文信息 - Methods and tools for the anatomical study and experimental in vivo measurement of the Octopus vulgaris arm for biomimetic design

Methods and tools for the anatomical study and experimental in vivo measurement of the Octopus vulgaris arm for biomimetic design

This work shows tools and methods aiming at carrying out focused research on the octopus arms anatomy and biomechanics to extract new biological information and define specifications for the design of a biomimetic robot inspired to the form and morphology of the octopus. Ultrasound and histological analysis have been used for the anatomical study of the arms. Muscles insertions, connection between the suckers and the arm musculatures, the nervous tissue distribution and arrangement have been well observed and characterized along the arm and under different observational planes (transverse, sagittal and horizontal), using ultrasound and histology. New instruments have been developed for an in vivo and direct, but non-invasive, measurement of the arm mechanical properties. The active elongation (longitudinal strain) and the pulling force capability are measured on different specimens of Octopus vulgaris in order to quantitatively characterize the parameters describing the arm mechanics, for biomimetic design purposes.

[1] R A Brooks,et al. New Approaches to Robotics , 1991, Science.

[2] W. Kier,et al. Tongues, tentacles and trunks: the biomechanics of movement in muscular‐hydrostats , 1985 .

[3] Paolo Dario,et al. Tools and methods for experimental in-vivo measurement and biomechanical characterization of an octopus vulgaris arm , 2009, 2009 Annual International Conference of the IEEE Engineering in Medicine and Biology Society.

[4] M. Segonzac,et al. Locomotion modes of deep-sea cirrate octopods (Cephalopoda) based on observations from video recordings on the Mid-Atlantic Ridge , 1997 .

[5] Jonathan E. Clark,et al. Biomimetic design and fabrication of a hexapedal running robot , 2001, Proceedings 2001 ICRA. IEEE International Conference on Robotics and Automation (Cat. No.01CH37164).

[6] A. A. Biewener,et al. Biomechanics-- structures and systems : a practical approach , 1992 .

[7] Fumiya Iida,et al. Designing Intelligent Robots--On the Implications of Embodiment (特集実世界の性質を利用した知覚と制御) , 2006 .

[8] Fumiya Iida,et al. Designing Intelligent Robots , 2006 .

[9] S. Pillen,et al. Quantitative ultrasonography of skeletal muscles in children: Normal values , 2003, Muscle & nerve.

[10] B Mazzolai,et al. Design of a biomimetic robotic octopus arm , 2009, Bioinspiration & biomimetics.

[11] R. Pfeifer,et al. Self-Organization, Embodiment, and Biologically Inspired Robotics , 2007, Science.