Litcius/Paper detail

Inverted and Inclined Climbing Using Capillary Adhesion in a Quadrupedal Insect-Scale Robot

Yufeng Chen, Neel Doshi, Robert J. Wood

2020IEEE Robotics and Automation Letters48 citationsDOI

Abstract

Many insects demonstrate remarkable locomotive capabilities on inclined or even inverted surfaces. Achieving inverted locomotion is a challenge for legged insect-scale robots because repeated attachment and detachment to a surface usually requires the design of special climbing gaits, adhesion mechanisms, sensing, and feedback control. In this study, we propose a novel adhesion method that leverages capillary and lubrication effects to achieve simultaneous adhesion and sliding. We design a 47 mg adhesion pad and install it on a 1.4 g insect-scale quadrupedal robot to demonstrate locomotion on inverted and inclined surfaces. On an inverted acrylic surface, the robot's climbing and turning speeds are 0.3 cm/s and 23.6 °/s, respectively. Further, the robot can climb a 30° inclined acrylic surface at 0.04 cm/s. This light-weight, passively stable, and versatile adhesion design is suitable for insect-scale robots with limited sensing, actuation, and control capabilities.

Topics & Concepts

ClimbAdhesionRobotClimbingCapillary actionMaterials scienceComputer scienceSimulationEngineeringArtificial intelligenceComposite materialAerospace engineeringStructural engineeringAdhesion, Friction, and Surface InteractionsSurface Modification and SuperhydrophobicityForce Microscopy Techniques and Applications