Hydraulic Autonomous Soft Robotic Fish for 3D Swimming

Author(s)

Katzschmann, Robert K.; Marchese, Andrew D.; Rus, Daniela

Abstract

© Springer International Publishing Switzerland 2016. Thiswork presents an autonomous soft-bodied robotic fish that is hydraulically actuated and capable of sustained swimming in three dimensions. The design of a fish-like soft body has been extended to deform under hydraulic instead of pneumatic power. Moreover, a new closed-circuit drive system that uses water as a transmission fluid is used to actuate the soft body. Circulation of water through internal body channels provides control over the fish’s caudal fin propulsion and yaw motion. A new fabrication technique for the soft body is described, which allows for arbitrary internal fluidic channels, enabling a wide-range of continuous body deformations. Furthermore, dynamic diving capabilities are introduced through pectoral fins as dive planes. These innovations enable prolonged fish-like locomotion in three dimensions.

Date issued

2015-11-13

URI

https://hdl.handle.net/1721.1/137208

Publisher

Springer International Publishing

Citation

Katzschmann, Robert K., Marchese, Andrew D. and Rus, Daniela. 2015. "Hydraulic Autonomous Soft Robotic Fish for 3D Swimming."

Version: Author's final manuscript

ISSN

1610-7438

1610-742X