Study and fabrication of bioinspired Octopus arm mockups tested on a multipurpose platform

This paper illustrates a robotic approach to the study of the Octopus vulgaris arm. On the base of the embodied intelligence theory, a study on the interaction among materials, mechanisms and actuation systems has been conducted. Starting from the observation of the performances of the octopus and drawing inspiration by its functional anatomy, several mock-ups, made by different materials and actuated by different cable arrangements have been tested. For this purpose a versatile platform has been designed and built, where the various solutions have been mounted and compared. The final aim of the work is to replicate the main complex movements of the octopus in a robotic platform. In particular the reaching movement, which best represents the stereotyped motion pattern of the octopus arm, has been reproduced.

[1]  Ian D. Walker,et al.  Soft robotics: Biological inspiration, state of the art, and future research , 2008 .

[2]  J A Mather,et al.  How do octopuses use their arms? , 1998, Journal of comparative psychology.

[3]  B. Hochner,et al.  Patterns of Arm Muscle Activation Involved in Octopus Reaching Movements , 1998, The Journal of Neuroscience.

[4]  Randall D. Beer,et al.  Biologically inspired approaches to robotics: what can we learn from insects? , 1997, CACM.

[5]  B. Hochner,et al.  Octopuses Use a Human-like Strategy to Control Precise Point-to-Point Arm Movements , 2006, Current Biology.

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

[7]  Randall D. Beer,et al.  Biologically Inspired Approaches to Robotics. , 1997 .

[8]  B. Hochner,et al.  Control of Octopus Arm Extension by a Peripheral Motor Program , 2001, Science.

[9]  Rolf Pfeifer,et al.  Understanding intelligence , 2020, Inequality by Design.

[10]  Tamar Flash,et al.  Dynamic model of the octopus arm. I. Biomechanics of the octopus reaching movement. , 2005, Journal of neurophysiology.

[11]  W. Kier,et al.  Trunks, Tongues, and Tentacles: Moving with Skeletons of Muscle , 1989 .

[12]  Jennifer A. Mather,et al.  How do octopuses use their arms , 1998 .

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

[14]  R. Beer,et al.  Biorobotic approaches to the study of motor systems , 1998, Current Opinion in Neurobiology.

[15]  Silvestro Micera,et al.  Robotics as a future and emerging technology: biomimetics, cybernetics, and neuro-robotics in European projects , 2005, IEEE Robotics & Automation Magazine.

[16]  Tamar Flash,et al.  Dynamic model of the octopus arm. II. Control of reaching movements. , 2005, Journal of neurophysiology.