Artificial intelligence associated with satellite data in predicting energy potential in the Brazilian savanna woodland area

Artificial intelligence associated with satellite data in predicting energy potential in the Brazilian savanna woodland area

The use of artificial intelligence to generate information of the savanna’s energy capacity may support sustainable management of those areas. We assessed the efficacy of artificial neural networks (ANNs) combined with satellite data to estimate the energy potential (Pe) for cerradão, a dense savann...

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Main Authors: Carrijo JVN, Miguel EP, Teixeira Do Vale A, Matricardi EAT, Monteiro TC, Rezende AV, Inkotte J
Format: Article
Language:English
Published: Italian Society of Silviculture and Forest Ecology (SISEF) 2020-02-01
Series:iForest - Biogeosciences and Forestry
Subjects:
artificial neural networks
cerrado
higher heating value
biomass
modelling
forestry
Online Access:https://iforest.sisef.org/contents/?id=ifor3209-012
id doaj-aea2b5bcbdb840eaaf78491ce933881f
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spelling doaj-aea2b5bcbdb840eaaf78491ce933881f2020-11-24T23:59:27ZengItalian Society of Silviculture and Forest Ecology (SISEF)iForest - Biogeosciences and Forestry1971-74581971-74582020-02-01131485510.3832/ifor3209-0123209Artificial intelligence associated with satellite data in predicting energy potential in the Brazilian savanna woodland areaCarrijo JVN0Miguel EP1Teixeira Do Vale A2Matricardi EAT3Monteiro TC4Rezende AV5Inkotte J6Department of Forestry, Faculty of Technology, University of Brasília, Brasília, 70910-900 (Brazil)Department of Forestry, Faculty of Technology, University of Brasília, Brasília, 70910-900 (Brazil)Department of Forestry, Faculty of Technology, University of Brasília, Brasília, 70910-900 (Brazil)Department of Forestry, Faculty of Technology, University of Brasília, Brasília, 70910-900 (Brazil)Department of Forestry and Forest Technology, Federal University of Paraná, Av. Prefeito Lothário Meissner, 632 - Jardim Botnico, Curitiba, 80210-170 (Brazil)Department of Forestry, Faculty of Technology, University of Brasília, Brasília, 70910-900 (Brazil)Department of Forestry, Faculty of Technology, University of Brasília, Brasília, 70910-900 (Brazil)The use of artificial intelligence to generate information of the savanna’s energy capacity may support sustainable management of those areas. We assessed the efficacy of artificial neural networks (ANNs) combined with satellite data to estimate the energy potential (Pe) for cerradão, a dense savannah-like vegetation type in Brazil. We conducted a forest inventory for measuring dendrometric variables and sampling woody materials and barks in a cerradão area in the state of Tocantins, Brazil. The Pe of cerradão biomass was estimated based on the observed higher calorific power and drier biomass values. Six vegetation indices were retrieved from a RapidEye image and tested for correlation to choose the optimum vegetation index for biomass modeling. The basal area and the Normalized Difference Vegetation Index were used as predictors in the Pe modeling. We estimated an average of 19.234 ± 0.411 GJ ton-1 and 19.878 ± 1.090 GJ ton-1 for higher heating values of the wood species and barks, respectively, and an average Pe of 1022.660 GJ ha-1. The best ANN showed an error of 11.3% by using a structure of two, eight, and one neurons in the input layer, in the hidden layer, and in the output layer, respectively, as well as activation functions of the tangential and sigmoidal types. The validation tests showed no significant difference between the observed and ANN-predicted values. Based on our results, we concluded that Pe can be efficiently predicted by combining ANNs and remotely sensed data, which ultimately is a promising tool for forest sustainable management of the cerrado ecosystems.https://iforest.sisef.org/contents/?id=ifor3209-012artificial neural networkscerradohigher heating valuebiomassmodellingforestry
collection DOAJ
language English
format Article
sources DOAJ
author Carrijo JVN
Miguel EP
Teixeira Do Vale A
Matricardi EAT
Monteiro TC
Rezende AV
Inkotte J
spellingShingle Carrijo JVN
Miguel EP
Teixeira Do Vale A
Matricardi EAT
Monteiro TC
Rezende AV
Inkotte J
Artificial intelligence associated with satellite data in predicting energy potential in the Brazilian savanna woodland area
iForest - Biogeosciences and Forestry
artificial neural networks
cerrado
higher heating value
biomass
modelling
forestry
author_facet Carrijo JVN
Miguel EP
Teixeira Do Vale A
Matricardi EAT
Monteiro TC
Rezende AV
Inkotte J
author_sort Carrijo JVN
title Artificial intelligence associated with satellite data in predicting energy potential in the Brazilian savanna woodland area
title_short Artificial intelligence associated with satellite data in predicting energy potential in the Brazilian savanna woodland area
title_full Artificial intelligence associated with satellite data in predicting energy potential in the Brazilian savanna woodland area
title_fullStr Artificial intelligence associated with satellite data in predicting energy potential in the Brazilian savanna woodland area
title_full_unstemmed Artificial intelligence associated with satellite data in predicting energy potential in the Brazilian savanna woodland area
title_sort artificial intelligence associated with satellite data in predicting energy potential in the brazilian savanna woodland area
publisher Italian Society of Silviculture and Forest Ecology (SISEF)
series iForest - Biogeosciences and Forestry
issn 1971-7458
1971-7458
publishDate 2020-02-01
description The use of artificial intelligence to generate information of the savanna’s energy capacity may support sustainable management of those areas. We assessed the efficacy of artificial neural networks (ANNs) combined with satellite data to estimate the energy potential (Pe) for cerradão, a dense savannah-like vegetation type in Brazil. We conducted a forest inventory for measuring dendrometric variables and sampling woody materials and barks in a cerradão area in the state of Tocantins, Brazil. The Pe of cerradão biomass was estimated based on the observed higher calorific power and drier biomass values. Six vegetation indices were retrieved from a RapidEye image and tested for correlation to choose the optimum vegetation index for biomass modeling. The basal area and the Normalized Difference Vegetation Index were used as predictors in the Pe modeling. We estimated an average of 19.234 ± 0.411 GJ ton-1 and 19.878 ± 1.090 GJ ton-1 for higher heating values of the wood species and barks, respectively, and an average Pe of 1022.660 GJ ha-1. The best ANN showed an error of 11.3% by using a structure of two, eight, and one neurons in the input layer, in the hidden layer, and in the output layer, respectively, as well as activation functions of the tangential and sigmoidal types. The validation tests showed no significant difference between the observed and ANN-predicted values. Based on our results, we concluded that Pe can be efficiently predicted by combining ANNs and remotely sensed data, which ultimately is a promising tool for forest sustainable management of the cerrado ecosystems.
topic artificial neural networks
cerrado
higher heating value
biomass
modelling
forestry
url https://iforest.sisef.org/contents/?id=ifor3209-012
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AT inkottej artificialintelligenceassociatedwithsatellitedatainpredictingenergypotentialinthebraziliansavannawoodlandarea
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