Laser Remote Sensing of Vegetation Cover Using Reflection Coefficients Measurement Data

Белов, М. Л.; Фесенко, Ю. С.; Городничев, В. А.; Кувшинов, А. В.

doi:10.7463/rdopt.0316.0840843

Cited by 4 publications

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“…The stress reduces the plants' reflectivity in the green region of the spectrum and simultaneously it increases the reflectivity in the blue and red regions. Also, the steepness is reduced of the reflectivity transition from the red region of the spectrum to the far red one [13]. Thus, by combining several methods for plant stress states determining in a single device, it is possible to increase the measuring accuracy and extend the functionality of its use for different crops.…”

Section: Fig 1 Typical Chlorophyll Fluorescence Induction Curve Andmentioning

confidence: 99%

Portable spectral device for monitoring plant stress conditions

et al. 2020

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The non-destructive monitoring systems use for plant stress conditions detecting and evaluating can improve the performed research and working procedures quality significantly. Such systems concepts are based on obtaining of the leaves’ reflective characteristics, the spectrum, and the chlorophyll fluorescence induction. By several methods combining for plant stress states detection within a single device, for different crops, it is possible to increase the evaluation accuracy and extend the device functionality. The laboratory prototype of the device for plants’ stress states determining was developed and tested on plants of basil garden variety. It was shown that the impact of the stress factor in the form of the UV-C radiation was expressed in the shape change of the fluorescence spectrum, namely, in the fluorescence intensity fall in the long-wave part of the spectrum. Also it was shown that the reflectivity decreased in the green and far red regions of the spectrum. At the spectra registration in the red and IR sections of the spectrum, some noises and interference distortions were detected, which can be filtered out by ways of demodulation and calculation of the trigonometric component of the interference distortion functions.

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Section: Fig 1 Typical Chlorophyll Fluorescence Induction Curve Andmentioning

confidence: 99%

Portable spectral device for monitoring plant stress conditions

et al. 2020

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“…Отсутствие поглощающих пигментов в области от 700 nm и особенности физиологической структуры листьев [24] объясняют резкое повышение коэффициента диффузного отражения света от поверхности древесного листа на границе видимого и ближнего инфракрасного диапазона. Значение коэффициента отражательной способности у свежих зеленых листьев деревьев в области длин волн более 750 nm превышает 70% [25,26].…”

Section: результаты измерения и обсуждениеunclassified

Дискриминация Хвойных И Лиственных Листьев Деревьев И Кустарников От Декоративно-Искусственных Материалов Методом Оптической Спектроскопии Диффузного Отражения Света

Мамелин¹,

Копытов²,

Бузько³

2020

Журнал Технической Физики

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The article was the first time investigation the spectra of diffuse light reflection from coniferous and deciduous green leaves of trees and shrubs that growing in the Krasnodar region territory. The obtained spectral data were compared with the spectra of diffuse light reflection from green synthetic decorative and artificial leaves and various camouflage materials. The use of vegetation indices of "greenness" to discriminate coniferous and deciduous leaves of trees and shrubs from decorative and artificial materials by optical diffuse reflectance spectroscopy was proposed.

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Discrimination of Coniferous and Deciduous Leaves of Trees and Shrubs from Decorative and Artificial Materials by Optical Diffuse Reflectance Spectroscopy

2020

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Laser Remote Sensing of Vegetation Cover Using Reflection Coefficients Measurement Data

Cited by 4 publications

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Portable spectral device for monitoring plant stress conditions

Portable spectral device for monitoring plant stress conditions

Discrimination of Coniferous and Deciduous Leaves of Trees and Shrubs from Decorative and Artificial Materials by Optical Diffuse Reflectance Spectroscopy

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