多波束激光雷达测量不确定度预测模型的建立与验证:在velodyne vlp-16上的应用

2018 Eighth International Conference on Image Processing Theory, Tools and Applications (IPTA) Pub Date : 2018-11-01 DOI:10.1109/IPTA.2018.8608146

Q. Péntek, T. Allouis, O. Strauss, C. Fiorio

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引用次数: 8

摘要

多传感器融合的一个关键特征是能够将每个测量值与其不确定度的估计相关联。我们的目标是开发基于无人机机载激光雷达点云和传统相机数据的点到像素关联，以建立数字高程模型，其中每个3D点与颜色相关联。本文提出了一种方便的多波束激光雷达系统的不确定性预测模型，该模型考虑了激光二极管叠加发射足迹。我们用一种新的无参考评价方法对该模型进行了补充。该评估方法旨在验证激光雷达不确定性预测模型并估计其分辨能力。它基于两个标准:一个是一致性，另一个是特异性。我们将该方法应用于多波束Velodyne VLP-16激光雷达。传感器的预测模型验证了一致性标准，但正如预期的那样，不是特异性标准。它返回相干悲观预测，分辨率上限为2 cm，距离为5 m。

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DEVELOPING AND VALIDATING A PREDICTIVE MODEL OF MEASUREMENT UNCERTAINTY FOR MULTI-BEAM LIDARS: APPLICATION TO THE VELODYNE VLP-16

A key feature for multi-sensor fusion is the ability to associate, to each measured value, an estimate of its uncertainty. We aim at developing a point-to-pixel association based on UAV-borne LiDAR point cloud and conventional camera data to build digital elevation models where each 3D point is associated to a color. In this paper, we propose a convenient uncertainty prediction model dedicated to multi-beam LiDAR systems with a new consideration on laser diode stack emitted footprints. We supplement this proposition by a novel reference-free evaluation method of this model. This evaluation method aims at validating the LiDAR uncertainty prediction model and estimating its resolving power. It is based on two criteria: one for consistency, the other for specificity. We apply this method to the multi-beam Velodyne VLP-16 LiDAR. The sensor’s prediction model validates the consistency criterion but, as expected, not the specificity criterion. It returns coherently pessimistic prediction with a resolving power upper bounded by 2 cm at a distance of 5 m.

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2018 Eighth International Conference on Image Processing Theory, Tools and Applications (IPTA)

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