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Registros recuperados : 57 | |
3. | | LUCENA, I.; CAMARGO NETO, J. Banco de dados centralizado para pesquisa em agricultura de precisão. In: BORÉM, A.; GIÚDICE, M. P. del; QUEIROZ, D. M. de; MANTOVANI, E. C.; FERREIRA, L. R.; VALLE, F. X. R. do; GOMIDE, R. L. (Ed.). Agricultura de precisão. Viçosa: UFV, 2000. p. 455-467. Na publicação: João Camargo. Biblioteca(s): Embrapa Agricultura Digital. |
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18. | | PINTON, E. N. S.; CAMARGO NETO, J.; VISOLI, M. C. Roda da Reprodução iOS: aplicativo móvel para gestão de rebanho leiteiro. In: MOSTRA DE ESTAGIÁRIOS E BOLSISTAS DA EMBRAPA INFORMÁTICA AGROPCUÁRIA, 13., 2017, Campinas. Resumos expandidos... Brasília, DF: Embrapa, 2017. p. 55-60. Editores técnicos: Giampaolo Queiroz Pellegrino, Luciana Guilherme Sacomani Zenerato, Maria Fernanda Moura, Giulia croce, Poliana Fernanda Giachetto. Biblioteca(s): Embrapa Agricultura Digital. |
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Registros recuperados : 57 | |
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| Acesso ao texto completo restrito à biblioteca da Embrapa Agricultura Digital. Para informações adicionais entre em contato com cnptia.biblioteca@embrapa.br. |
Registro Completo
Biblioteca(s): |
Embrapa Agricultura Digital. |
Data corrente: |
04/11/2004 |
Data da última atualização: |
22/11/2004 |
Autoria: |
CAMARGO NETO, J. |
Afiliação: |
Embrapa Informática Agropecuária. |
Título: |
A combined statistical - soft computing approach for classification and mapping weed species in minimum-tillage systems. |
Ano de publicação: |
2004 |
Fonte/Imprenta: |
2004. |
Páginas: |
170 f. |
Idioma: |
Inglês |
Notas: |
Dissertation (Doctor of Philosophy), University of Nebraska, Lincoln. |
Conteúdo: |
This dissertation describes a combined statistical-soft computing approach for classifying and mapping weeds species using color images in minimum-tillage systems. A new unsupervised separation index (ExGExR) is introduced to distinguish plant canopies from different soil/residue backgrounds. Results showed that ExGExR was significantly improved for all species and all three weeks over the previously published excess green (ExG). ExGExR performed very well for separating both pigweed and velvetleaf from bare soil and corn stalk backgrounds during the first and second week after crop emegence. A new algorithm for individual leaf extraction was introduced based on fuzzy color clustering and genetic algorithm. Images of green canopies were segmented into fragments of potential leaf regions using clustering algorithm. Fragments were then reassembled into individual leaves using genetic optimization algorithm. The algorithm performance was evaluated by comparing the actual number leaves automatically extracted with the number of potential leaves observed visually. An overall performance of 75% for leaves correctly extracted was obtained. Elliptic Fourier method was next tested for characterizing the shape of hand selected young soybean, sunflower, red root pigweed, and velvetleaf leaves. Discriminant analysis of these shape coefficients suggested that the third week after emergence was the best time to identify plant species with a correct classification average of 89.4%. When leaves from the second and third week were analyzed a correct classification average of 89.2% was reached. An unsupervised method for plant species identification tested. Elliptic Fourier descriptors not only provided leaflet shape information, but also a lamina boundary template, controlling where textural features were computed. Each lamina shape extracted was corrected such that all leaflets had the same orientation for texture extraction. SAS PROC DISCRIM procedure was performed to build a species classification model using selected Fourier coefficients and local homogeneity and entropy texture features. An overall success rate of 86% was obtained for plant species classification. MenosThis dissertation describes a combined statistical-soft computing approach for classifying and mapping weeds species using color images in minimum-tillage systems. A new unsupervised separation index (ExGExR) is introduced to distinguish plant canopies from different soil/residue backgrounds. Results showed that ExGExR was significantly improved for all species and all three weeks over the previously published excess green (ExG). ExGExR performed very well for separating both pigweed and velvetleaf from bare soil and corn stalk backgrounds during the first and second week after crop emegence. A new algorithm for individual leaf extraction was introduced based on fuzzy color clustering and genetic algorithm. Images of green canopies were segmented into fragments of potential leaf regions using clustering algorithm. Fragments were then reassembled into individual leaves using genetic optimization algorithm. The algorithm performance was evaluated by comparing the actual number leaves automatically extracted with the number of potential leaves observed visually. An overall performance of 75% for leaves correctly extracted was obtained. Elliptic Fourier method was next tested for characterizing the shape of hand selected young soybean, sunflower, red root pigweed, and velvetleaf leaves. Discriminant analysis of these shape coefficients suggested that the third week after emergence was the best time to identify plant species with a correct classification average of 89.4%. When le... Mostrar Tudo |
Palavras-Chave: |
Classificação; Mapeamento; Plantas daninhas; Plantas invasoras; Processamento de imagem; reconhecimento de padrão. |
Thesagro: |
Agricultura de Precisão. |
Categoria do assunto: |
-- |
Marc: |
LEADER 02887nam a2200217 a 4500 001 1008763 005 2004-11-22 008 2004 bl uuuu m 00u1 u #d 100 1 $aCAMARGO NETO, J. 245 $aA combined statistical - soft computing approach for classification and mapping weed species in minimum-tillage systems. 260 $a2004.$c2004 300 $a170 f. 500 $aDissertation (Doctor of Philosophy), University of Nebraska, Lincoln. 520 $aThis dissertation describes a combined statistical-soft computing approach for classifying and mapping weeds species using color images in minimum-tillage systems. A new unsupervised separation index (ExGExR) is introduced to distinguish plant canopies from different soil/residue backgrounds. Results showed that ExGExR was significantly improved for all species and all three weeks over the previously published excess green (ExG). ExGExR performed very well for separating both pigweed and velvetleaf from bare soil and corn stalk backgrounds during the first and second week after crop emegence. A new algorithm for individual leaf extraction was introduced based on fuzzy color clustering and genetic algorithm. Images of green canopies were segmented into fragments of potential leaf regions using clustering algorithm. Fragments were then reassembled into individual leaves using genetic optimization algorithm. The algorithm performance was evaluated by comparing the actual number leaves automatically extracted with the number of potential leaves observed visually. An overall performance of 75% for leaves correctly extracted was obtained. Elliptic Fourier method was next tested for characterizing the shape of hand selected young soybean, sunflower, red root pigweed, and velvetleaf leaves. Discriminant analysis of these shape coefficients suggested that the third week after emergence was the best time to identify plant species with a correct classification average of 89.4%. When leaves from the second and third week were analyzed a correct classification average of 89.2% was reached. An unsupervised method for plant species identification tested. Elliptic Fourier descriptors not only provided leaflet shape information, but also a lamina boundary template, controlling where textural features were computed. Each lamina shape extracted was corrected such that all leaflets had the same orientation for texture extraction. SAS PROC DISCRIM procedure was performed to build a species classification model using selected Fourier coefficients and local homogeneity and entropy texture features. An overall success rate of 86% was obtained for plant species classification. 650 $aAgricultura de Precisão 653 $aClassificação 653 $aMapeamento 653 $aPlantas daninhas 653 $aPlantas invasoras 653 $aProcessamento de imagem 653 $areconhecimento de padrão
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