Multi-Agent Visual-Inertial Localization for Integrated Aerial Systems with Loose Fusion of Odometry and Kinematics

Ganghua Lai, Chuanbeibei Shi, Kaidi Wang, Yushu Yu*, Yiqun Dong, Antonio Franchi

*此作品的通讯作者

科研成果: 期刊稿件文章同行评审

摘要

Reliablyand efficiently estimating the relative pose and global localization of robots in a common reference for Integrated Aerial Platforms (IAPs) is a challenging problem. Unlike unmanned aerial vehicle (UAV) swarms, where the agent individual is able to move freely, IAPs connect UAV agents with mechanical joints, such as spherical joints, and form a rigid central platform, limiting the degree of freedom (DOF) of agents. Traditional methods, which rely on forming loop closures, object detection, or range sensors, suffer from degeneration or inefficiency due to the restricted relative motion between agents. In this paper, we present a centralized multi-agent localization system that fuses the internal kinematic constraints of IAPs and odometry measurements, using only visual-inertial suits for ego-motion estimation for agents and an additional 9-DOF Inertial Measurement Unit (IMU) attached to the central platform for posture estimation. A general formulation for kinematic constraints is derived without requiring knowledge about detailed kinematic parameters. A sliding-window optimization-based state estimator is constructed to estimate the relative transformation between agents. Our proposed approach is validated in our collected dataset. The results show that the proposed method reduces the global localization drift by 27.15% and relative localization error by 53.4% in the translation part and 36.99% in the rotation part compared to the baseline.

源语言英语
页(从-至)6504-6511
页数8
期刊IEEE Robotics and Automation Letters
9
7
DOI
出版状态已出版 - 1 7月 2024

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