Geometrical analysis of altitude estimation error caused by pixel quantization in stereo vision

20th Iranian Conference on Electrical Engineering (ICEE2012) Pub Date : 2012-09-05 DOI:10.1109/IRANIANCEE.2012.6292444

F. Fooladgar, S. Samavi, S. Soroushmehr

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引用次数: 4

Abstract

Determining location of a target in a specific region is an important goal in some machine vision applications. The accuracy of the target localization is related to a number of parameters. Quantization process in the CCD of a camera node is one of the sources of error which results in achieving an estimation of the target location instead of its exact position. In this paper, we present a geometrical approach to analyze this error. The proposed approach models the field of view of each pixel as an oblique cone. Thus the ambiguity in localization, via two cameras with arbitrary configurations, is considered by intersection of two oblique cones. In this paper we utilize the difference between the maximum and minimum points of the cones intersection, in all three dimensions, as a criterion of error estimation. In order to determine the extremum points, the Lagrangain method is used. We show the validity of our model through simulations. Also, we analyze the effect of varying many parameters such as the baseline length, focal length, and pixel size, on the amount of the estimation error.

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立体视觉中像素量化引起的高度估计误差几何分析

在某些机器视觉应用中，确定目标在特定区域中的位置是一个重要的目标。目标定位的精度与许多参数有关。摄像机节点CCD的量化处理是误差的来源之一，它只能得到目标位置的估计，而不能得到目标的准确位置。在本文中，我们提出了一种几何方法来分析这种误差。该方法将每个像素的视场建模为一个斜锥。因此，通过两个任意配置的相机，定位中的模糊性是通过两个斜锥的相交来考虑的。在本文中，我们利用圆锥相交的最大值和最小值点之间的差，在所有的三个维度，作为误差估计的准则。为了确定极值点，采用拉格朗日方法。通过仿真验证了模型的有效性。此外，我们还分析了基线长度、焦距和像素大小等参数的变化对估计误差的影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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20th Iranian Conference on Electrical Engineering (ICEE2012)

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