Hydrodynamics can determine the optimal route for microswimmer navigation

Author:

Daddi-Moussa-Ider AbdallahORCID,Löwen HartmutORCID,Liebchen BennoORCID

Abstract

AbstractAs compared to the well explored problem of how to steer a macroscopic agent, like an airplane or a moon lander, to optimally reach a target, optimal navigation strategies for microswimmers experiencing hydrodynamic interactions with walls and obstacles are far-less understood. Here, we systematically explore this problem and show that the characteristic microswimmer-flow-field crucially influences the navigation strategy required to reach a target in the fastest way. The resulting optimal trajectories can have remarkable and non-intuitive shapes, which qualitatively differ from those of dry active particles or motile macroagents. Our results provide insights into the role of hydrodynamics and fluctuations on optimal navigation at the microscale, and suggest that microorganisms might have survival advantages when strategically controlling their distance to remote walls.

Funder

Deutsche Forschungsgemeinschaft

Publisher

Springer Science and Business Media LLC

Subject

General Physics and Astronomy

Reference79 articles.

1. Kirk, D. E. Optimal Control Theory: An Introduction (Courier Corporation, 2004).

2. Viswanathan, G. M., G.E. Da Luz, M., Raposo, E. P. & Stanley, H. E. The Physics of Foraging: an Introduction to Random Searches and Biological Encounters. (Cambridge University Press, U.K., 2011).

3. Fricke, G. M., Letendre, K. A., Moses, M. E. & Cannon, J. L. Persistence and adaptation in immunity: T cells balance the extent and thoroughness of search. PLoS Comput. Biol. 12, e1004818 (2016).

4. Muinos-Landin, S., Ghazi-Zahedi, K., & Cichos, F. Reinforcement learning of artificial microswimmers. Preprint at http://arxiv.org/abs/1803.06425 (2018).

5. Yang, Y. & Bevan, M. A. Optimal navigation of self-propelled colloids. ACS Nano 12, 10712 (2018).

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