视觉惯性测距中的在线折射相机模型校准

Mohit Singh, Kostas Alexis
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引用次数: 0

摘要

本文介绍了一种通用折射率照相机模型,以及在线估算未知介质的几何尺寸和折射率。只需在空气中对相机进行校准,即可在各种不同的折射流体中进行操作。折射率作为单目视觉-惯性里程计框架的状态变量,通过使用所提出的相机模型进行迭代计算进行在线估计。该方法在使用水下机器人穿越水池收集的数据上进行了验证。评估结果表明,尽管初始化过程中存在显著扰动,但该方法仍能收敛到理想的水折射率。同时,该方法在折射介质中的视觉惯性里程测量性能与标准相当,而无需事先了解折射率,也不需要针对特定介质进行相机校准。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Online Refractive Camera Model Calibration in Visual Inertial Odometry
This paper presents a general refractive camera model and online co-estimation of odometry and the refractive index of unknown media. This enables operation in diverse and varying refractive fluids, given only the camera calibration in air. The refractive index is estimated online as a state variable of a monocular visual-inertial odometry framework in an iterative formulation using the proposed camera model. The method was verified on data collected using an underwater robot traversing inside a pool. The evaluations demonstrate convergence to the ideal refractive index for water despite significant perturbations in the initialization. Simultaneously, the approach enables on-par visual-inertial odometry performance in refractive media without prior knowledge of the refractive index or requirement of medium-specific camera calibration.
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