基于Gauss-Helmert模型的多尺度无目标手眼标定

IF 9.4 1区计算机科学 Q1 ROBOTICS

IEEE Transactions on Robotics Pub Date : 2025-03-06 DOI:10.1109/TRO.2025.3548538

Marta Čolaković-Bencerić;Juraj Peršić;Ivan Marković;Ivan Petrović

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引用次数: 0

摘要

自主机器人的运行可靠性在很大程度上取决于外部传感器校准，这是精确和准确的数据融合的先决条件。探索无标度传感器（如单目相机）的校准和有效利用不确定性是困难的，而且经常被忽视。基于Gauss-Helmert模型的手眼传感器同步校准和尺度估计解决方案的开发旨在利用里程计不确定度中包含的有价值信息。在这项工作中，我们提出了一个通用的和鲁棒的解决方案的批校准基于分析的流形方法的估计。该方法的通用性证明了它在处理里程计故障和重新初始化时能够校准多个非缩放和公制缩放传感器。重要的是，所有估计参数都具有相应的不确定性。在模拟和现实世界的实验中，对我们的方法进行了验证，并与五种竞争的最先进的校准方法进行了比较，结果表明，我们的方法具有优越的精度，在高噪声情况下观察到特别有希望的结果。

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Multiscale and Uncertainty-Aware Targetless Hand-Eye Calibration via the Gauss–Helmert Model

The operational reliability of an autonomous robot depends crucially on extrinsic sensor calibration as a prerequisite for precise and accurate data fusion. Exploring the calibration of unscaled sensors (e.g., monocular cameras) and the effective utilization of uncertainties are difficult and often overlooked. The development of a solution for the simultaneous calibration of hand-eye sensors and scale estimation based on the Gauss–Helmert model aims to utilize the valuable information contained in the uncertainty of odometry. In this work, we propose a versatile and robust solution for batch calibration based on the analytical on-manifold approach for estimation. The versatility of our method is demonstrated by its ability to calibrate multiple unscaled and metric-scaled sensors while dealing with odometry failures and reinitializations. Importantly, all estimated parameters are provided with their corresponding uncertainties. The validation of our method and its comparison with five competing state-of-the-art calibration methods in both simulations and real-world experiments show its superior accuracy, with particularly promising results observed in high-noise scenarios.

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来源期刊

IEEE Transactions on Robotics 工程技术-机器人学

CiteScore

14.90

自引率

5.10%

发文量

259

审稿时长

6.0 months

期刊介绍： The IEEE Transactions on Robotics (T-RO) is dedicated to publishing fundamental papers covering all facets of robotics, drawing on interdisciplinary approaches from computer science, control systems, electrical engineering, mathematics, mechanical engineering, and beyond. From industrial applications to service and personal assistants, surgical operations to space, underwater, and remote exploration, robots and intelligent machines play pivotal roles across various domains, including entertainment, safety, search and rescue, military applications, agriculture, and intelligent vehicles. Special emphasis is placed on intelligent machines and systems designed for unstructured environments, where a significant portion of the environment remains unknown and beyond direct sensing or control.