智能光电表面振动测试系统

20th International Congress on Instrumentation in Aerospace Simulation Facilities, 2003. ICIASF '03. Pub Date : 2003-08-25 DOI:10.1109/ICIASF.2003.1274860

V. Simonov, A. Kuzin

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引用次数: 1

摘要

描述了一个光电系统的创建和应用结果，用于测量具有复杂表面结构的物体的振动场。振动测量的原理是基于物体光学图像的位移测量。讨论了误差补偿的研究，这是由于物体的大小和形状的变化而发生的，因为物体通常发射或反射不同数量的光。如果不使用补偿，总误差将达到百分之百左右。这就是为什么要对各种测量误差进行分析、分类、数学建模，并创建专门的误差补偿回路的原因。结果表明，在所有实际使用条件下，测量总误差小于15%。本文还给出了在扫描物体表面时适应不同类型物体的半自动算法的实现结果。讨论了各种类型的“光函数”的分类原则，具体针对各种类型的物体。

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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Intelligent system for optoelectronic surface vibration testing

Described are results of creation and application of an optoelectronic system, intended for measurements of field of vibrations of objects with complicated surface structure. Principle of vibration measurements is based on displacement measurements of an optical image of the object. Discussed are investigations of errors compensation, which take place because of variations of objects' size and shape, as objects usually emit or reflect different amount of light. Without using of compensation the total error would be about hundreds of percent. This is why all kinds of measurement errors were analyzed, classified, mathematically modeled and there were created special loops for errors compensation. As a result total error of measurement was less that 15% for all conditions of practical usage. In this paper presented also are results of implementation of half-automatical algorithm for adaptation to different kinds of objects during scanning of the object's surface. Discussed are principles of classification of various types of "light functions", specific for various types of objects.

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来源期刊

20th International Congress on Instrumentation in Aerospace Simulation Facilities, 2003. ICIASF '03.

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