人体回声定位
机制(生物学)
计算机科学
利用
复杂度
生物有机体
生化工程
纳米技术
仿生学
合成生物学
生物系统
人工智能
人机交互
自主代理人
化学通讯
仿生材料
作者
Aritra K. Mukhopadhyay,Ran Niu,L. B. Fu,Feng Ke,Christopher Fujta,Qiang Zhao,J. -L. Qu,Benno Liebchen
标识
DOI:10.48550/arxiv.2601.00480
摘要
Motile microorganisms, like bacteria and algae, unify abilities like self-propulsion, autonomous navigation, and decision-making on the micron scale. While recent breakthroughs have led to the creation of synthetic microswimmers and nanoagents that can also self-propel, they still lack the functionality and sophistication of their biological counterparts. This study pioneers a mechanism enabling synthetic agents to autonomously navigate and make decisions, allowing them to solve mazes and transport cargo through complex environments without requiring external cues or guidance. The mechanism exploits chemo-hydrodynamic signals, produced by agents like active droplets or colloids, to remotely sense and respond to their environment - similar to echolocation. Our research paves the way for endowing autonomous, motile synthetic agents with functionalities that have been so far exclusive to biological organisms.
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