Your search keyword '"Anderson Aparecido dos Santos"' showing total 9 results

1. ATSS Deep Learning-Based Approach to Detect Apple Fruits

Author

Leonardo Josoé Biffi, Edson Mitishita, Veraldo Liesenberg, Anderson Aparecido dos Santos, Diogo Nunes Gonçalves, Nayara Vasconcelos Estrabis, Jonathan de Andrade Silva, Lucas Prado Osco, Ana Paula Marques Ramos, Jorge Antonio Silva Centeno, Marcos Benedito Schimalski, Leo Rufato, Sílvio Luís Rafaeli Neto, José Marcato Junior, and Wesley Nunes Gonçalves

Subjects

convolutional neural network, object detection, precision agriculture, Science

Abstract

In recent years, many agriculture-related problems have been evaluated with the integration of artificial intelligence techniques and remote sensing systems. Specifically, in fruit detection problems, several recent works were developed using Deep Learning (DL) methods applied in images acquired in different acquisition levels. However, the increasing use of anti-hail plastic net cover in commercial orchards highlights the importance of terrestrial remote sensing systems. Apples are one of the most highly-challenging fruits to be detected in images, mainly because of the target occlusion problem occurrence. Additionally, the introduction of high-density apple tree orchards makes the identification of single fruits a real challenge. To support farmers to detect apple fruits efficiently, this paper presents an approach based on the Adaptive Training Sample Selection (ATSS) deep learning method applied to close-range and low-cost terrestrial RGB images. The correct identification supports apple production forecasting and gives local producers a better idea of forthcoming management practices. The main advantage of the ATSS method is that only the center point of the objects is labeled, which is much more practicable and realistic than bounding-box annotations in heavily dense fruit orchards. Additionally, we evaluated other object detection methods such as RetinaNet, Libra Regions with Convolutional Neural Network (R-CNN), Cascade R-CNN, Faster R-CNN, Feature Selective Anchor-Free (FSAF), and High-Resolution Network (HRNet). The study area is a highly-dense apple orchard consisting of Fuji Suprema apple fruits (Malus domestica Borkh) located in a smallholder farm in the state of Santa Catarina (southern Brazil). A total of 398 terrestrial images were taken nearly perpendicularly in front of the trees by a professional camera, assuring both a good vertical coverage of the apple trees in terms of heights and overlapping between picture frames. After, the high-resolution RGB images were divided into several patches for helping the detection of small and/or occluded apples. A total of 3119, 840, and 2010 patches were used for training, validation, and testing, respectively. Moreover, the proposed method’s generalization capability was assessed by applying simulated image corruptions to the test set images with different severity levels, including noise, blurs, weather, and digital processing. Experiments were also conducted by varying the bounding box size (80, 100, 120, 140, 160, and 180 pixels) in the image original for the proposed approach. Our results showed that the ATSS-based method slightly outperformed all other deep learning methods, between 2.4% and 0.3%. Also, we verified that the best result was obtained with a bounding box size of 160 × 160 pixels. The proposed method was robust regarding most of the corruption, except for snow, frost, and fog weather conditions. Finally, a benchmark of the reported dataset is also generated and publicly available.

Published

2020

2. Assessment of CNN-Based Methods for Individual Tree Detection on Images Captured by RGB Cameras Attached to UAVs

Author

Anderson Aparecido dos Santos, José Marcato Junior, Márcio Santos Araújo, David Robledo Di Martini, Everton Castelão Tetila, Henrique Lopes Siqueira, Camila Aoki, Anette Eltner, Edson Takashi Matsubara, Hemerson Pistori, Raul Queiroz Feitosa, Veraldo Liesenberg, and Wesley Nunes Gonçalves

Subjects

object-detection, deep learning, remote sensing, Chemical technology, TP1-1185

Abstract

Detection and classification of tree species from remote sensing data were performed using mainly multispectral and hyperspectral images and Light Detection And Ranging (LiDAR) data. Despite the comparatively lower cost and higher spatial resolution, few studies focused on images captured by Red-Green-Blue (RGB) sensors. Besides, the recent years have witnessed an impressive progress of deep learning methods for object detection. Motivated by this scenario, we proposed and evaluated the usage of Convolutional Neural Network (CNN)-based methods combined with Unmanned Aerial Vehicle (UAV) high spatial resolution RGB imagery for the detection of law protected tree species. Three state-of-the-art object detection methods were evaluated: Faster Region-based Convolutional Neural Network (Faster R-CNN), YOLOv3 and RetinaNet. A dataset was built to assess the selected methods, comprising 392 RBG images captured from August 2018 to February 2019, over a forested urban area in midwest Brazil. The target object is an important tree species threatened by extinction known as Dipteryx alata Vogel (Fabaceae). The experimental analysis delivered average precision around 92% with an associated processing times below 30 miliseconds.

Published

2019

3. Improving Pantanal fish species recognition through taxonomic ranks in convolutional neural networks.

Author

Anderson Aparecido dos Santos and Wesley Nunes Gonçalves

Published

2019

4. ATSS Deep Learning-Based Approach to Detect Apple Fruits.

Author

Leonardo Josoé Biffi, Edson A. Mitishita, Veraldo Liesenberg, Anderson Aparecido dos Santos, Diogo Nunes Gonçalves, Nayara V. Estrabis, Jonathan de Andrade Silva, Lucas Prado Osco, Ana Paula Marques Ramos, Jorge Antonio Silva Centeno, Marcos Benedito Schimalski, Leo Rufato, Sílvio Luís Rafaeli Neto, José Marcato Junior, and Wesley Nunes Gonçalves

Published

2021

5. Storm-Drain and Manhole Detection Using the RetinaNet Method.

Author

Anderson Aparecido dos Santos, José Marcato Junior, Jonathan de Andrade Silva, Rodrigo Pereira, Daniel Matos, Geazy Menezes, Leandro Higa, Anette Eltner, Ana Paula Marques Ramos, Lucas Prado Osco, and Wesley Nunes Gonçalves

Published

2020

6. Direitos constitucionais e povos indígenas: apontamentos sobre a disputa pela efetivação do direito fundamental às suas terras tradicionais

Author

Anderson Aparecido dos Santos and Antonio Hilario Aguilera Urquiza

Subjects

Convention, Politics, State (polity), Human rights, Law, media_common.quotation_subject, Political science, Fundamental rights, Indigenous rights, Indigenous, media_common, Promulgation

Abstract

O presente trabalho tem por objetivo analisar os direitos fundamentais dos povos indígenas conquistados com a promulgação da Constituição Federal de 1988, seguindo a ordem internacional de proteção de Direitos Humanos e o rompimento de paradigmas inaugurados pela Convenção 169 da Organização Internacional do Trabalho (OIT). Com efeito, as efetivações dos direitos indígenas perpassam várias nuances, não sendo possível aqui abordá-las por completo. Assim, este trabalho se restringirá a analisar as disputas políticas que envolvem a organização do Estado brasileiro, protagonizadas por interesses de setores anti-indígenas, conforme consta no relatório do Conselho Indigenista Missionário (Cimi) de 2018, que visam, especificamente, em relação aos arts. 231 e 232 da Constituição Federal de 1988, à extinção e/ou modificação de direitos no texto constitucional. Trata-se de pesquisa com enfoque sociojurídico, com método indutivo, com base na análise de dados, pesquisa bibliográfica, sítios da rede mundial de computadores, relatórios de organizações e produções científicas.

Published

2020

7. ATSS Deep Learning-Based Approach to Detect Apple Fruits

Author

Wesley Nunes Gonçalves, Ana Paula Marques Ramos, Leo Rufato, Veraldo Liesenberg, Jonathan de Andrade Silva, Marcos Benedito Schimalski, José Marcato Junior, Diogo Nunes Gonçalves, Lucas Prado Osco, Jorge Antonio Silva Centeno, Leonardo Josoé Biffi, Anderson Aparecido dos Santos, Nayara Vasconcelos Estrabis, Sílvio Luís Rafaeli Neto, and Edson Aparecido Mitishita

Subjects

010504 meteorology & atmospheric sciences, Computer science, Science, convolutional neural network, Apple tree, 02 engineering and technology, 01 natural sciences, Convolutional neural network, Minimum bounding box, 0202 electrical engineering, electronic engineering, information engineering, object detection, precision agriculture, 0105 earth and related environmental sciences, Pixel, business.industry, Deep learning, Pattern recognition, Object detection, Feature (computer vision), Test set, General Earth and Planetary Sciences, 020201 artificial intelligence & image processing, Artificial intelligence, business

Abstract

In recent years, many agriculture-related problems have been evaluated with the integration of artificial intelligence techniques and remote sensing systems. Specifically, in fruit detection problems, several recent works were developed using Deep Learning (DL) methods applied in images acquired in different acquisition levels. However, the increasing use of anti-hail plastic net cover in commercial orchards highlights the importance of terrestrial remote sensing systems. Apples are one of the most highly-challenging fruits to be detected in images, mainly because of the target occlusion problem occurrence. Additionally, the introduction of high-density apple tree orchards makes the identification of single fruits a real challenge. To support farmers to detect apple fruits efficiently, this paper presents an approach based on the Adaptive Training Sample Selection (ATSS) deep learning method applied to close-range and low-cost terrestrial RGB images. The correct identification supports apple production forecasting and gives local producers a better idea of forthcoming management practices. The main advantage of the ATSS method is that only the center point of the objects is labeled, which is much more practicable and realistic than bounding-box annotations in heavily dense fruit orchards. Additionally, we evaluated other object detection methods such as RetinaNet, Libra Regions with Convolutional Neural Network (R-CNN), Cascade R-CNN, Faster R-CNN, Feature Selective Anchor-Free (FSAF), and High-Resolution Network (HRNet). The study area is a highly-dense apple orchard consisting of Fuji Suprema apple fruits (Malus domestica Borkh) located in a smallholder farm in the state of Santa Catarina (southern Brazil). A total of 398 terrestrial images were taken nearly perpendicularly in front of the trees by a professional camera, assuring both a good vertical coverage of the apple trees in terms of heights and overlapping between picture frames. After, the high-resolution RGB images were divided into several patches for helping the detection of small and/or occluded apples. A total of 3119, 840, and 2010 patches were used for training, validation, and testing, respectively. Moreover, the proposed method’s generalization capability was assessed by applying simulated image corruptions to the test set images with different severity levels, including noise, blurs, weather, and digital processing. Experiments were also conducted by varying the bounding box size (80, 100, 120, 140, 160, and 180 pixels) in the image original for the proposed approach. Our results showed that the ATSS-based method slightly outperformed all other deep learning methods, between 2.4% and 0.3%. Also, we verified that the best result was obtained with a bounding box size of 160 × 160 pixels. The proposed method was robust regarding most of the corruption, except for snow, frost, and fog weather conditions. Finally, a benchmark of the reported dataset is also generated and publicly available.

Published

2020

8. Storm-Drain and Manhole Detection Using the RetinaNet Method

Author

Lucas Prado Osco, Anderson Aparecido dos Santos, José Marcato Junior, Daniel Anijar de Matos, Ana Paula Marques Ramos, R. B. Pereira, Leandro de Oliveira Souza Higa, Anette Eltner, Geazy Vilharva Menezes, Jonathan de Andrade Silva, and Wesley Nunes Gonçalves

Subjects

Letter, 010504 meteorology & atmospheric sciences, Computer science, convolutional neural network, 02 engineering and technology, lcsh:Chemical technology, 01 natural sciences, Biochemistry, Convolutional neural network, Analytical Chemistry, 0202 electrical engineering, electronic engineering, information engineering, lcsh:TP1-1185, Electrical and Electronic Engineering, Instrumentation, 0105 earth and related environmental sciences, business.industry, Deep learning, Pattern recognition, object detection, urban floods mapping, Atomic and Molecular Physics, and Optics, Object detection, Feature (computer vision), RGB color model, 020201 artificial intelligence & image processing, Storm drain, Artificial intelligence, business, Mobile mapping

Abstract

As key-components of the urban-drainage system, storm-drains and manholes are essential to the hydrological modeling of urban basins. Accurately mapping of these objects can help to improve the storm-drain systems for the prevention and mitigation of urban floods. Novel Deep Learning (DL) methods have been proposed to aid the mapping of these urban features. The main aim of this paper is to evaluate the state-of-the-art object detection method RetinaNet to identify storm-drain and manhole in urban areas in street-level RGB images. The experimental assessment was performed using 297 mobile mapping images captured in 2019 in the streets in six regions in Campo Grande city, located in Mato Grosso do Sul state, Brazil. Two configurations of training, validation, and test images were considered. ResNet-50 and ResNet-101 were adopted in the experimental assessment as the two distinct feature extractor networks (i.e., backbones) for the RetinaNet method. The results were compared with the Faster R-CNN method. The results showed a higher detection accuracy when using RetinaNet with ResNet-50. In conclusion, the assessed DL method is adequate to detect storm-drain and manhole from mobile mapping RGB images, outperforming the Faster R-CNN method. The labeled dataset used in this study is available for future research.

Published

2020

9. Assessment of CNN-Based Methods for Individual Tree Detection on Images Captured by RGB Cameras Attached to UAVs

Author

José Marcato Junior, Veraldo Liesenberg, Hemerson Pistori, Wesley Nunes Gonçalves, Marcio Santos Araujo, Camila Aoki, Henrique Lopes Siqueira, Edson Takashi Matsubara, Raul Queiroz Feitosa, Anderson Aparecido dos Santos, David Robledo Di Martini, Anette Eltner, and Everton Castelão Tetila

Subjects

010504 meteorology & atmospheric sciences, Computer science, Multispectral image, 0211 other engineering and technologies, 02 engineering and technology, lcsh:Chemical technology, 01 natural sciences, Biochemistry, Convolutional neural network, Article, Analytical Chemistry, remote sensing, Photography, lcsh:TP1-1185, Computer vision, Electrical and Electronic Engineering, Instrumentation, Image resolution, 021101 geological & geomatics engineering, 0105 earth and related environmental sciences, Likelihood Functions, business.industry, Deep learning, Discriminant Analysis, deep learning, Hyperspectral imaging, Fabaceae, Atomic and Molecular Physics, and Optics, Object detection, Tree (data structure), Remote Sensing Technology, RGB color model, Neural Networks, Computer, Artificial intelligence, business, object-detection

Abstract

Detection and classification of tree species from remote sensing data were performed using mainly multispectral and hyperspectral images and Light Detection And Ranging (LiDAR) data. Despite the comparatively lower cost and higher spatial resolution, few studies focused on images captured by Red-Green-Blue (RGB) sensors. Besides, the recent years have witnessed an impressive progress of deep learning methods for object detection. Motivated by this scenario, we proposed and evaluated the usage of Convolutional Neural Network (CNN)-based methods combined with Unmanned Aerial Vehicle (UAV) high spatial resolution RGB imagery for the detection of law protected tree species. Three state-of-the-art object detection methods were evaluated: Faster Region-based Convolutional Neural Network (Faster R-CNN), YOLOv3 and RetinaNet. A dataset was built to assess the selected methods, comprising 392 RBG images captured from August 2018 to February 2019, over a forested urban area in midwest Brazil. The target object is an important tree species threatened by extinction known as Dipteryx alata Vogel (Fabaceae). The experimental analysis delivered average precision around 92% with an associated processing times below 30 miliseconds.

Published

2019