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An agile multimodal microrobot with architected passively morphing wheels

Yuchen Lai, Chuanqi Zang, Guoquan Luo, Shiwei Xu, Renheng Bo, J. Z. Zhao, Youzhou Yang, Tianqi Jin, Yu Lan, Yuejiao Wang, Li Wen, Wenbo Pang, Yihui Zhang

2024Science Advances22 citationsDOIOpen Access PDF

Abstract

Multimodal microrobots are of growing interest due to their capabilities to navigate diverse terrains, with promising applications in inspection, exploration, and biomedicine. Despite remarkable progress, it remains challenging to combine the attributes of excellent maneuverability, low power consumption, and high robustness in a single multimodal microrobot. We propose an architected design of a passively morphing wheel that can be stabilized at distinct geometric configurations, relying on asymmetric bending stiffness of bioinspired tentacle structures. By integrating such wheels with electromagnetic motors and a flexible body, we develop a highly compact, lightweight, multimodal microrobot (length ~32 mm and mass ~4.74 g) with three locomotion gaits. It has high motion speed (~21.2 BL/s), excellent agility (relative centripetal acceleration, ~206.9 BL/s 2 ), low power consumption (cost of transport, ~89), high robustness, and strong terrain adaptabilities. Integration of batteries and a wireless control module enables developments of an untethered microrobot that maintains high motion speed and excellent agility, with capabilities of traveling in hybrid terrains.

Topics & Concepts

MorphingComputer scienceRobustness (evolution)Power consumptionTerrainMechanical engineeringSimulationPower (physics)Artificial intelligenceEngineeringPhysicsQuantum mechanicsBiologyEcologyGeneBiochemistryChemistryMicro and Nano RoboticsModular Robots and Swarm IntelligenceSoft Robotics and Applications
An agile multimodal microrobot with architected passively morphing wheels | Litcius