Skip to main content
eScholarship
Open Access Publications from the University of California

UC San Diego

UC San Diego Electronic Theses and Dissertations bannerUC San Diego

Eversion and Retraction of a Soft Robot Towards the Exploration of Coral Reefs

Abstract

Coral reefs are declining worldwide. Yet, critical information remains unknown about the basic biological, ecological, and chemical processes that sustain coral reefs because of the challenges to accessing their narrow crevices and passageways. A robot that grows from the tip through its environment would be well suited to this challenge as there is no relative motion between the exterior of the robot and its surroundings. In this thesis work, I present the design and development of an eversion robot for operation underwater, show that existing models work for constrained passageways if external contacts are taken into account, and introduce a new model to describe the forces on the robot during retraction. Ambient water is used to pressurize the robot and maintain a neutral buoyancy. The robot operates in open loop without any steering, but can rely on its compliance to conform to natural crevices and pathways in its environment. The mechanism of eversion and retraction for an underwater soft robot is demonstrated as a potential approach for future non-destructive exploration of coral reefs.

Main Content
For improved accessibility of PDF content, download the file to your device.
Current View