Measuring Repeatability of the Focus-variable Lenses

Geoinformatics FCE CTU Pub Date : 2015-01-20 DOI:10.14311/GI.13.1

J. Reznícek

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Abstract

In the field of photogrammetry, the optical system, usually represented by the glass lens, is used for metric purposes. Therefore, the aberration characteristics of such a lens, inducing deviations from projective imaging, has to be well known. However, the most important property of the metric lens is the stability of its glass and mechanical elements, ensuring long-term reliability of the measured parameters. In case of a focus-variable lens, the repeatability of the lens setup is important as well. Lenses with a fixed focal length are usually considered as “fixed” though, in fact, most of them contain one or more movable glass elements, providing the focusing function. In cases where the lens is not equipped with fixing screws, the repeatability of the calibration parameters should be known. This paper derives simple mathematical formulas that can be used for measuring the repeatability of the focus-variable lenses, and gives a demonstrative example of such measuring. The given procedure has the advantage that only demanded parameters are estimated, hence, no unwanted correlations with the additional parameters exist. The test arrangement enables us to measure each demanded magnification of the optical system, which is important in close-range photogrammetry.

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可变焦距透镜重复性的测量

在摄影测量领域，光学系统通常以玻璃透镜为代表，用于度量目的。因此，这种透镜的像差特性，引起投影成像的偏差，必须众所周知。然而，公制透镜最重要的特性是其玻璃和机械元件的稳定性，确保测量参数的长期可靠性。在变焦镜头的情况下，镜头设置的可重复性也很重要。固定焦距的镜头通常被认为是“固定”镜头，但实际上，大多数镜头都包含一个或多个可移动的玻璃元件，提供聚焦功能。在镜头没有配备固定螺丝的情况下，应该知道校准参数的可重复性。本文推导了可用于测量变焦透镜可重复性的简单数学公式，并给出了测量的演示实例。给定过程的优点是只估计所需的参数，因此不存在与附加参数的不必要的相关性。测试安排使我们能够测量光学系统的各种放大倍率，这在近景摄影测量中很重要。

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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Geoinformatics FCE CTU

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