Mathematical modeling at development of the optical measuring devices

Proceedings of LFNM'2000. 2nd International Workshop on Laser and Fiber-Optical Networks Modeling (Cat. No.00EX419) Pub Date : 2000-05-23 DOI:10.1109/LFNM.2000.854034

N.G. Nokody

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Abstract

Thermal meters are often used for measurement of optical radiation parameters. The investigation of the processes which act on the optical radiation of the receiver with the help of mathematical modeling allows one to increase the measurement precision, and to improve the space and time resolution and other parameters of the device. It is necessary to find the solution of the inverse heat problem (IHP) for this purpose, that is to reconstruct parameters of the heating the receiver of the radiation on the measured temperature. It is expedient to apply the mathematical modeling for debugging of the IHP solution algorithms. The radiation parameters are reconstructed. The algorithm parameters are optimized. Inverse heat problems can be divided into two groups. They are reconstructed data by the radiation intensity distribution in the space at fixed moment of the time in the first group and time dependence of the intensity on the fixed point in the second group. The methods of the solution of these problems are different.

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光学测量装置研制中的数学建模

热计常用于测量光辐射参数。利用数学模型研究作用于接收机光辐射的过程，可以提高测量精度，提高器件的时空分辨率和其他参数。为此，有必要找到逆热问题的解，即在测量温度上重建辐射接收器的加热参数。将数学建模应用于IHP求解算法的调试是方便的。重建了辐射参数。对算法参数进行了优化。逆热问题可分为两类。它们是根据第一组中固定时刻的空间辐射强度分布和第二组中辐射强度与固定点的时间依赖关系重构的数据。解决这些问题的方法是不同的。

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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Proceedings of LFNM'2000. 2nd International Workshop on Laser and Fiber-Optical Networks Modeling (Cat. No.00EX419)

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