Stress-Based Navigation for Microscopic Robots in Viscous Fluids

April 02, 2018 ยท Declared Dead ยท ๐Ÿ› Journal of Micro-Bio Robotics

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Authors Tad Hogg arXiv ID 1804.00762 Category cs.RO: Robotics Cross-listed physics.flu-dyn Citations 4 Venue Journal of Micro-Bio Robotics Last Checked 3 months ago
Abstract
Objects moving in fluids experience patterns of stress on their surfaces determined by their motion and the geometry of nearby boundaries. Fish and underwater robots can use these patterns for navigation. This paper extends this stress-based navigation to microscopic robots in tiny vessels, where robots can exploit the physics of fluids at low Reynolds number. This applies, for instance, in vessels with sizes and flow speeds comparable to those of capillaries in biological tissues. We describe how a robot can use simple computations to estimate its motion, orientation and distance to nearby vessel walls from fluid-induced stresses on its surface. Numerically evaluating these estimates for a variety of vessel sizes and robot positions shows they are most accurate when robots are close to vessel walls.
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