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EGO-Swarm: A Fully Autonomous and Decentralized Quadrotor Swarm System in Cluttered Environments

Xin Zhou, Jiangchao Zhu, Hongyu Zhou, Chao Xu, Fei Gao

2021182 citationsDOI

Abstract

This paper presents a decentralized and asynchronous systematic solution for multi-robot autonomous navigation in unknown obstacle-rich scenes using merely onboard resources. The planning system is formulated under gradient-based local planning framework, where collision avoidance is achieved by formulating the collision risk as a penalty of a nonlinear optimization problem. In order to improve robustness and escape local minima, we incorporate a lightweight topological trajectory generation method. Then agents generate safe, smooth, and dynamically feasible trajectories in only several milliseconds using an unreliable trajectory sharing network. Relative localization drift among agents is corrected by using agent detection in depth images. Our method is demonstrated in both simulation and real-world experiments. The source code is released for the reference of the community.

Topics & Concepts

Computer scienceRobustness (evolution)Swarm behaviourCollision avoidanceMaxima and minimaObstacle avoidanceAsynchronous communicationTrajectoryRobotMotion planningObstacleDistributed computingMulti-agent systemCollisionReal-time computingControl theory (sociology)Artificial intelligenceMobile robotMathematicsComputer networkChemistryAstronomyLawComputer securityPolitical sciencePhysicsMathematical analysisControl (management)BiochemistryGeneRobotic Path Planning AlgorithmsRobotics and Sensor-Based LocalizationDistributed Control Multi-Agent Systems
EGO-Swarm: A Fully Autonomous and Decentralized Quadrotor Swarm System in Cluttered Environments | Litcius