Abstract
The article presents results of the development and research of a hyperspectral imaging spectrometer for analyzing borehole fluids in real operating conditions in the spectral range from 0.35 microns to 2.1 microns. A mathematical model and an algorithm for identifying the borehole fluid by composition and percentage content based on the results of hyperspectral image analysis are developed.
Highlights
A mathematical model and an algorithm for identifying the borehole fluid by composition and percentage content based on the results of hyperspectral image analysis are developed
Гиперспектральная аппаратура для дистанционного зондирования Земли / Г.Г
Summary
При регистрации излучения на линейный фотоприёмник линейку (ФПЛ) в зависимости от способа пространственной фильтрации величина сигнала определяется формулами (1) [9, 12], где приняты следующие обозначения: F (p) – сигнал после фильтра; s ( ) – спектральная чувствительность ФПЛ; f ( ) – спектральное распределение интенсивности; p – толщина среды; ( ) – спектральный коэффициент по-.
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