Hydraulic Volumetric Soft Everting Vine Robot Steering Mechanism for Underwater Exploration

Danyaal Kaleel, Benoit Clement, Kaspar Althoefer

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Abstract

Despite a significant proportion of the Earth being covered in water, exploration of what lies below has been limited due to the challenges and difficulties inherent in the process. Current state of the art robots such as Remotely Operated Vehicles (ROVs) and Autonomous Underwater Vehicles (AUVs) are bulky, rigid and unable to conform to their environment. This makes certain underwater regions, especially those characterised by tight and narrow crevasses - as is the case for coral reefs - inaccessible to currently available exploratory tools. Soft robotics offers potential solutions to this issue. Fluid-actuated eversion or growing robots, in particular, are a good example. While current eversion robots have found many applications on land, their inherent properties make them particularly well suited to underwater environments. An important factor when considering underwater eversion robots is the establishment of a suitable steering mechanism that can enable the robot to change direction as required. This project proposes a design for an eversion robot that is capable of steering while underwater, through the use of bending pouches, a design commonly seen in the literature on land-based eversion robots. These bending pouches contract to enable directional change. Similar to their land-based counterparts, the underwater eversion robot uses the same fluid in the medium it operates in to achieve extension and bending but also to additionally aid in neutral buoyancy. The actuation method of bending pouches meant that robots needed to fully extend before steering was possible. Three robots, with the same design and dimensions were constructed from polyethylene tubes and tested. Our research shows that although the soft eversion robot design in this paper was not capable of consistently generating the same amounts of bending for the inflation volume, it still achieved suitable bending at a range of inflation volumes and was observed to bend to a maximum angle of 68 degrees at 2000 ml, which is in line with the bending angles reported for land-based eversion robots in the literature.

Original languageEnglish
Pages (from-to)59-64
Number of pages6
JournalIFAC-PapersOnLine
Volume58
Issue number20
DOIs
Publication statusPublished - 2024
Externally publishedYes
Event15th IFAC Conference on Control Applications in Marine Systems, Robotics and Vehicles, CAMS 2024 - Blacksburg, United States
Duration: 3 Sept 20245 Sept 2024

Keywords

  • hydraulic eversion
  • underwater eversion robot
  • underwater eversion robot steering mechanism
  • underwater everting vine robot
  • underwater soft robot

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