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Distributed Collaborative Pedestrian Inertial SLAM With Unknown Initial Relative Poses

Yiming Ding, Zhi Xiong, Jun Xiong, Zhiguo Cao, Wanling Li

2022IEEE Internet of Things Journal18 citationsDOI

Abstract

Collaborative indoor positioning techniques for pedestrians have been extensively researched in the past years, particularly concerning the range-based collaborative indoor positioning system. However, range-based indoor collaboration methods suffer from nonline-of-sight (NLOS) and electromagnetic signal loss in indoor environments. Meanwhile, these methods require prior knowledge of the initial relative pose of the pedestrian, which is difficult to obtain in such an environment. To overcome the unreliable mutual observation and the lack of initial relative poses information in collaborative position systems, this article proposes a distributed collaborative inertial simultaneous localization and mapping (DCOGI-SLAM) framework for collaborative pedestrian positioning systems in unknown indoor environments without prior information. A coarse alignment method of relative poses based on encounter events is proposed to obtain the initial relative poses of pedestrians. A mutual position observation is constructed based on the map constructed through the occupancy grid-based inertial SLAM (OGI-SLAM) method to provide a stable innovation for collaborative correction of positioning errors, insulating the system from the NLOS and the loss of ranging signals. Moreover, a distributed collaborative occupancy grid-based inertial simultaneous localization and mapping (DCOGI-SLAM) framework is proposed to enable each pedestrian positioning system in a formation to operate independently. In a two-person collaborative experiment over a space of approximately 2500 m2, the proposed system can obtain comparable accuracy to single OGI-SLAM with known initial relative position information, when the initial relative position information is unknown. The average positioning error of the proposed method is 1.48 m.

Topics & Concepts

Computer scienceOccupancy grid mappingPedestrianSimultaneous localization and mappingPosition (finance)RangingInertial navigation systemNon-line-of-sight propagationComputer visionDead reckoningArtificial intelligenceGridPositioning systemReal-time computingRange (aeronautics)Inertial frame of referenceGlobal Positioning SystemMobile robotWirelessTelecommunicationsRobotEngineeringEconomicsMathematicsTransport engineeringPhysicsNode (physics)FinanceAerospace engineeringGeometryQuantum mechanicsStructural engineeringIndoor and Outdoor Localization TechnologiesRobotics and Sensor-Based LocalizationUnderwater Vehicles and Communication Systems
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