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Bistable SMA-driven engine for pulse-jet locomotion in soft aquatic robots

Graziella Bedenik, Antonio Morales, Supun Pieris, Bárbara V. Silva, John W. Kurelek, Melissa Greeff, Matthew Robertson

20259 citationsDOI

Abstract

This paper presents the design and experimental validation of a bio-inspired soft aquatic robot, the DilBot, which uses a bistable shape memory alloy-driven engine for pulse-jet locomotion. Drawing inspiration from the efficient swimming mechanisms of box jellyfish, the DilBot incorporates antagonistic shape memory alloy springs encapsulated in silicone insulation to achieve high-power propulsion. The innovative bistable mechanism allows continuous swimming cycles by storing and releasing energy in a controlled manner. Through free-swimming experiments and force characterization tests, we evaluated the DilBot’s performance, achieving a peak speed of 158 mm/s and generating a maximum thrust of 5.59 N. This work demonstrates a novel approach to enhancing the efficiency of shape memory alloy actuators in aquatic environments. It presents a promising pathway for future applications in underwater environmental monitoring using robotic swarms.

Topics & Concepts

BistabilitySMA*RobotPulse (music)Pulse-width modulationComputer sciencePhysicsEngineeringOptoelectronicsElectrical engineeringArtificial intelligenceVoltageAlgorithmUnderwater Vehicles and Communication SystemsMicro and Nano RoboticsWater Quality Monitoring Technologies
Bistable SMA-driven engine for pulse-jet locomotion in soft aquatic robots | Litcius