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Increasing the Reliability and Versatility of Jellyfish Biohybrid Vehicles via Species Selection and Rhopalia Removal

Title: Increasing the Reliability and Versatility of Jellyfish Biohybrid Vehicles via Species Selection and Rhopalia Removal
Authors: Simon R. Anuszczyk; Noa Yoder; John H. Costello; John O. Dabiri; Brad J. Gemmell; Kelsi M. Rutledge; Sean P. Colin
Source: Biomimetics ; Volume 10 ; Issue 12 ; Pages: 810
Publisher Information: Multidisciplinary Digital Publishing Institute
Publication Year: 2025
Collection: MDPI Open Access Publishing
Subject Terms: cyborg jellyfish; robotic vehicle; ocean sampling; swimming kinematics; medusa; box jellyfish
Description: Jellyfish biohybrid robots have been demonstrated to be successfully programmed to perform vertical sampling profiles of the ocean water column. However, the jellyfish’s endogenous swimming behavior can interfere with the controlled swim cycles, decreasing performance. Further, the model animal used to date, Aurelia aurita, is a relatively slow, weakly swimming species. To enhance the performance of the biohybrid vehicles, we tested whether removing the swimming pacemaker of the jellyfish, the rhopalia, eliminated endogenous movements and enhanced responsiveness of the jellyfish to the swim controller. Further, we tested the responsiveness of two fast-swimming jellyfish species, the rhizostome Cassiopea spp. and the cubomedusae Alatina alata. We found in field trials, where the jellyfish swam controlled vertical profiles in the ocean, that removal of rhopalia eliminated all endogenous behaviors and greatly improved the responsiveness of the jellyfish to the swim controller. This was especially true for species with strong endogenous behaviors that prevented the controller from manipulating swim pulses. Further, we found that both Cassiopea spp. and A. alata were highly responsive to the swim controller and that these faster-swimming jellyfish species greatly increased the speed at which the biohybrid vehicle could traverse vertical profiles in the water column. These enhancements greatly increase the reliability and versatility of jellyfish biohybrid robot vehicles.
Document Type: text
File Description: application/pdf
Language: English
Relation: Biomimetic Design, Constructions and Devices; https://dx.doi.org/10.3390/biomimetics10120810
DOI: 10.3390/biomimetics10120810
Availability: https://doi.org/10.3390/biomimetics10120810
Rights: https://creativecommons.org/licenses/by/4.0/
Accession Number: edsbas.158C8AB5
Database: BASE