Parametric Shape Optimization of Flagellated Micro-Swimmers Using Bayesian Techniques
Optimization and Control
2026-02-11 v2
Abstract
Understanding and optimizing the design of helical micro-swimmers is crucial for advancing their application in various fields. This study presents an innovative approach combining Free-Form Deformation with Bayesian Optimization to enhance the shape of these swimmers. Our method facilitates the computation of generic swimmer shapes that achieve optimal average speed and efficiency. Applied to both monoflagellated and biflagellated swimmers, our optimization framework has led to the identification of new optimal shapes. These shapes are compared with biological counterparts, highlighting a diverse range of swimmers, including both pushers and pullers.
Keywords
Cite
@article{arxiv.2409.11776,
title = {Parametric Shape Optimization of Flagellated Micro-Swimmers Using Bayesian Techniques},
author = {Lucas Palazzolo and Laëtitia Giraldi and Mickael Binois and Luca Berti},
journal= {arXiv preprint arXiv:2409.11776},
year = {2026}
}