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Volumn 32, Issue 2, 2012, Pages 465-471
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Estimating total nitrogen content in wetland vegetation based on measured reflectance spectra
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Author keywords
Hyperspectral; Reclaimed water; Remote sensing; Total nitrogen; Wetland plant
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Indexed keywords
COEFFICIENT OF DETERMINATION;
GROWTH CONDITIONS;
HYPERSPECTRAL;
KJELDAHL;
MONITORING AND MANAGEMENT;
MULTIVARIATE MODELS;
MULTIVARIATE REGRESSION;
NORMALIZED DIFFERENCES;
OLYMPIC PARKS;
PARTIAL LEAST-SQUARES REGRESSION;
PHRAGMITES AUSTRALIS;
PREDICTION MODEL;
RE-CLAIMED WATER;
RECYCLED WATER;
REFLECTANCE SPECTRUM;
REMOTE SENSING TECHNOLOGY;
RESEARCH AREAS;
ROOT MEAN SQUARE ERRORS;
SPECTRAL INDICES;
SPECTRAL REFLECTANCES;
STEPWISE MULTIPLE LINEAR REGRESSION;
TOTAL NITROGEN;
TOTAL NITROGEN CONTENT;
TYPHA ANGUSTIFOLIA;
UNIVARIATE MODELS;
UNIVARIATE TECHNIQUE;
VEGETATION GROWTH;
WETLAND PLANT;
WETLAND PLANTS;
WETLAND RESTORATION;
WETLAND VEGETATION;
MATHEMATICAL MODELS;
MEAN SQUARE ERROR;
REFLECTION;
REGRESSION ANALYSIS;
REMOTE SENSING;
VEGETATION;
WASTEWATER RECLAMATION;
WETLANDS;
NITROGEN;
PLANT LEAF;
POACEAE;
REGRESSION ANALYSIS;
REMOTE SENSING;
SPECTROSCOPY;
STATISTICAL MODEL;
THEORETICAL MODEL;
WETLAND;
LEAST-SQUARES ANALYSIS;
LINEAR MODELS;
MODELS, THEORETICAL;
NITROGEN;
PLANT LEAVES;
POACEAE;
REMOTE SENSING TECHNOLOGY;
SPECTRUM ANALYSIS;
WETLANDS;
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EID: 84863058386
PISSN: 10000593
EISSN: None
Source Type: Journal
DOI: 10.3964/j.issn.1000-0593(2012)02-0465-07 Document Type: Article |
Times cited : (11)
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References (21)
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