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Optimal motility strategies for self-propelled agents to explore porous media

Christoph Lohrmann, Christian Holm

2023Physical review. E14 citationsDOI

Abstract

Microrobots for, e.g., biomedical applications, need to be equipped with motility strategies that enable them to navigate through complex environments. Inspired by biological microorganisms we re-create motility patterns such as run-and-reverse, run-and-tumble, or run-reverse-flick applied to active rodlike particles in silico. We investigate their capability to efficiently explore disordered porous environments with various porosities and mean pore sizes ranging down to the scale of the active particle. By calculating the effective diffusivity for the different patterns, we can predict the optimal one for each porous sample geometry. We find that providing the agent with very basic sensing and decision-making capabilities yields a motility pattern outperforming the biologically inspired patterns for all investigated porous samples.

Topics & Concepts

Active matterMotilityPorous mediumPorosityBiological systemThermal diffusivityMaterials scienceComputer scienceDiffusionNanotechnologyDistributed computingArtificial intelligencePhysicsBiologyComposite materialCell biologyThermodynamicsGeneticsQuantum mechanicsMicro and Nano RoboticsModular Robots and Swarm IntelligencePickering emulsions and particle stabilization
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