Litcius/Paper detail

Collaborative 3D Scene Reconstruction in Large Outdoor Environments Using a Fleet of Mobile Ground Robots

John Lewis, Pedro U. Lima, Meysam Basiri

2022Sensors14 citationsDOIOpen Access PDF

Abstract

Teams of mobile robots can be employed in many outdoor applications, such as precision agriculture, search and rescue, and industrial inspection, allowing an efficient and robust exploration of large areas and enhancing the operators' situational awareness. In this context, this paper describes an active and decentralized framework for the collaborative 3D mapping of large outdoor areas using a team of mobile ground robots under limited communication range and bandwidth. A real-time method is proposed that allows the sharing and registration of individual local maps, obtained from 3D LiDAR measurements, to build a global representation of the environment. A conditional peer-to-peer communication strategy is used to share information over long-range and short-range distances while considering the bandwidth constraints. Results from both real-world and simulated experiments, executed in an actual solar power plant and in its digital twin representation, demonstrate the reliability and efficiency of the proposed decentralized framework for such large outdoor operations.

Topics & Concepts

Situation awarenessMobile robotRobotComputer scienceReal-time computingLidarBandwidth (computing)Context (archaeology)Search and rescueUnmanned ground vehicleRange (aeronautics)Spatial contextual awarenessRepresentation (politics)Human–computer interactionArtificial intelligenceDistributed computingEngineeringRemote sensingTelecommunicationsLawPoliticsPolitical sciencePaleontologyGeologyAerospace engineeringBiologyRobotics and Sensor-Based LocalizationModular Robots and Swarm IntelligenceIndoor and Outdoor Localization Technologies