Litcius/Paper detail

Unearthing real-time 3D ant tunneling mechanics

Robert Buarque de Macedo, Edward Andò, Shilpa Joy, Gioacchino Viggiani, Raj Kumar Pal, Joseph Parker, José E. Andrade

2021Proceedings of the National Academy of Sciences29 citationsDOIOpen Access PDF

Abstract

ant tunnel construction. By capturing the location and shape of each grain in the domain, we characterize the relationship between particle properties and ant decision-making within an accurate, virtual recreation of the experiment. We discover that intergranular forces decrease significantly around ant tunnels due to arches forming within the soil. Due to this force relaxation, any grain the ants pick from the tunnel surface will likely be under low stress. Thus, ants avoid removing grains compressed under high forces without needing to be aware of the force network in the surrounding material. Even more, such arches shield tunnels from high forces, providing tunnel robustness. Finally, we observe that ants tend to dig piecewise linearly downward. These results are a step toward understanding granular tunnel stability in heterogeneous 3D systems. We expect that such findings may be leveraged for robotic excavation.

Topics & Concepts

ExcavationDiggingQuantum tunnellingStability (learning theory)Granular materialComputer scienceParticle (ecology)Process (computing)RobotGeotechnical engineeringGeologyArtificial intelligenceMaterials scienceGeographyArchaeologyMachine learningOptoelectronicsOceanographyOperating systemLandslides and related hazardsTunneling and Rock MechanicsInsect and Arachnid Ecology and Behavior