Estimation of herbaceous vegetation aerial cover estimation using remote sensing

Authors

  • Fernando Paz Pellat Colegio de Postgraduados

DOI:

https://doi.org/10.28940/terra.v36i3.399

Keywords:

linear patterns, normalized and standardized reflectances, VI_SPLANA, radiation simulations

Abstract

To estimate biophysical variables, particularly foliage cover (fv), remote sensors can be used in different fields of application and facilitate model parameterization. From the perspective of radiation transfer models, the development of vegetation indexes (VI) should be based on theoretical considerations and experimental evidence, and there should be a linear relationship with the biophysical variable of interest. In this paper the theoretical considerations for the VI design are reviewed with a standardization format of the sol-sensor geometry and the use of normalized reflectances to consider the scale effect. From the use of radiation simulations, the Vegetation Index of Standardized Proportions in relation to the Limit Associated to Normalized spaces and their Attractors (VI_SPLANA) is introduced to establish a linear relationship with fv. The developed index is validated through multiple experiments on herbaceous vegetation, establishing its robustness and stability to be used in operational terms.

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Author Biography

Fernando Paz Pellat, Colegio de Postgraduados

Algun dia

Published

2018-07-08

How to Cite

Paz Pellat, F. (2018). Estimation of herbaceous vegetation aerial cover estimation using remote sensing. REVISTA TERRA LATINOAMERICANA, 36(3), 239–259. https://doi.org/10.28940/terra.v36i3.399

Issue

Section

Scientific Papers

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