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DOOR-SLAM: Distributed, Online, and Outlier Resilient SLAM for Robotic Teams

Pierre-Yves Lajoie, Benjamin Ramtoula, Yun Chang, Luca Carlone, Giovanni Beltrame

2020IEEE Robotics and Automation Letters213 citationsDOIOpen Access PDF

Abstract

To achieve collaborative tasks, robots in a team need to have a shared understanding of the environment and their location within it. Distributed Simultaneous Localization and Mapping (SLAM) offers a practical solution to localize the robots without relying on an external positioning system (e.g. GPS) and with minimal information exchange. Unfortunately, current distributed SLAM systems are vulnerable to perception outliers and therefore tend to use very conservative parameters for inter-robot place recognition. However, being too conservative comes at the cost of rejecting many valid loop closure candidates, which results in less accurate trajectory estimates. This letter introduces DOOR-SLAM, a fully distributed SLAM system with an outlier rejection mechanism that can work with less conservative parameters. DOOR-SLAM is based on peer-to-peer communication and does not require full connectivity among the robots. DOOR-SLAM includes two key modules: a pose graph optimizer combined with a distributed pairwise consistent measurement set maximization algorithm to reject spurious inter-robot loop closures; and a distributed SLAM frontend that detects inter-robot loop closures without exchanging raw sensor data. The system has been evaluated in simulations, benchmarking datasets, and field experiments, including tests in GPS-denied subterranean environments. DOOR-SLAM produces more inter-robot loop closures, successfully rejects outliers, and results in accurate trajectory estimates, while requiring low communication bandwidth. Full source code is available at https://github.com/MISTLab/DOOR-SLAM.git.

Topics & Concepts

Computer scienceSimultaneous localization and mappingPairwise comparisonTrajectoryBenchmarkingOutlierRobotSpurious relationshipArtificial intelligenceKey (lock)Set (abstract data type)Anomaly detectionGraphRoboticsData miningDistributed computingReal-time computingComputer visionRobot kinematicsProbabilistic logicSource codeReachabilityField (mathematics)Mobile robotDistributed algorithmMaximizationKinematicsMotion planningBundleCode (set theory)Robotics and Sensor-Based LocalizationDistributed Control Multi-Agent SystemsRobotic Path Planning Algorithms
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