Deep Learning for Automatic Outlining Agricultural Parcels: Exploiting the Land Parcel Identification System

García‐Pedrero, Ángel; Lillo‐Saavedra, Mario; Rodríguez-Esparragón, Dionisio; Gonzalo-Martín, Consuelo

doi:10.1109/access.2019.2950371

Cited by 42 publications

(27 citation statements)

References 46 publications

(52 reference statements)

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“…The filter weight and length have to be smaller than those of the input sub-images. [47]. Each input layer is normalized by using the mean ( ) and standard deviation (or variance -) parameter of the values in the current batch based on the following formula: whereas the and are trainable parameters, ̂ can be calculated by using mean ( ) and variance ( 2 ) of mini-batch B = {x1…m} as following formula:…”

Section: E U-net Architecture For Land-cover Detectionmentioning

confidence: 99%

U-Net Convolutional Networks for Mining Land Cover Classification Based on High-Resolution UAV Imagery

Giang¹,

Dang

et al. 2020

IEEE Access

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Mining activities are the leading cause of deforestation, land-use changes, and pollution. Land use/cover mapping in Vietnam every five years is not useful to monitor land covers in mining areas, especially in the Central Highland region. It is necessary to equip managers with a better tool to monitor and map land cover using high-resolution images. Therefore, the authors proposed using the U-Net convolutional network for land-cover classification based on multispectral Unmanned aerial vehicle (UAV) image in a mining area of Daknong province, Vietnam. An area of 0.5kmx0.8km was used for training and testing seven U-Net models using seven optimizer function types. The final U-Net model can interpret six land cover types: (1) open-case mining lands, (2) old permanent croplands, (3) young permanent croplands, (4) grasslands, (5) bare soils, (6) water bodies. As a result, two models using Nadam and Adadelta optimizer function can be used to classify six land cover types with accuracy higher than 83%, especially in open-case mining lands and polluted streams flowed out from the mining areas. The trained U-Net models can potentially update new land cover types in other mining areas towards monitoring land cover changes in real-time in the future.

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Section: E U-net Architecture For Land-cover Detectionmentioning

confidence: 99%

U-Net Convolutional Networks for Mining Land Cover Classification Based on High-Resolution UAV Imagery

Giang¹,

Dang

et al. 2020

IEEE Access

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“…Gracia-Pedrero et al employ a U-Net architecture to segment images into three classes: field, buffered boundary, and background. The boundaries are then computed from the contour of the first class (García-Pedrero et al, 2019). Likewise, in (Waldner, Diakogiannis, 2019), Waldner and Diakogiannis adapt a U-Net model to generate not only segmented images, but also predict distances to the field boundaries.…”

Section: Related Workmentioning

confidence: 99%

“…Within the LPIS framework, most member states of the European Union makes publicly available datasets of agricultural parcels, which inform on their crop types and geometries. This dataset has been used before in the relevant literature (García-Pedrero et al, 2019). This work also used this source, more specifically, the French and Danish datasets for the year 2018 2 and 2019 3 respectively.…”

Section: Study Area and Materialsmentioning

confidence: 99%

A Deep Learning Architecture for Batch-Mode Fully Automated Field Boundary Detection

Meyer

Lemarchand

Sidiropoulos

2020

Int. Arch. Photogramm. Remote Sens. Spatial Inf. Sci.

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Abstract. The accurate split of large areas of land into discrete fields is a crucial step for several agriculture-related remote sensing pipelines. This work aims to fully automate this tedious and resource-demanding process using a state-of-the-art deep learning algorithm with only a single Sentinel-2 image as input. The Mask R-CNN, which has forged its success upon instance segmentation for objects from everyday life, is adapted for the field boundary detection problem. Such model automatically generates closed geometries without any heavy post-processing. When tested with satellite imagery from Denmark, this tailored model correctly predicts field boundaries with an overall accuracy of 0.79. Besides, it demonstrates a robust knowledge generalisation with positive results over different geographies, as it gets an overall accuracy of 0.71 when used over areas in France.

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“…Deep learning can reduce the manual manipulation of data as, in this method, the importance of each dataset is automatically managed by neural networks. Several studies have shown that deep learning can solve previously challenging issues in the fields of engineering [17] , manufacturing [18] , [19] , [20] , transportation [21] , [22] , [23] , agriculture [24] , [25] , [26] , and medicine [27] , [28] , [29] , [30] .…”

Section: Introductionmentioning

confidence: 99%

Early prediction of coronavirus disease epidemic severity in the contiguous United States based on deep learning

Kao

Perng

2021

Results in Physics

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In November 2019, the coronavirus disease outbreak began, caused by the novel severe acute respiratory syndrome coronavirus 2. In just over two months, the unprecedented rapid spread resulted in more than 10,000 confirmed cases worldwide. This study predicted the infectious spread of coronavirus disease in the contiguous United States using a convolutional autoencoder with long short-term memory and compared its predictive performance with that of the convolutional autoencoder without long short-term memory. The epidemic data were obtained from the World Health Organization and the US Centers for Disease Control and Prevention from January 1 st to April 6 th , 2020. We used data from the first 366,607 confirmed cases in the United States. In this study, the data from the Centers for Disease Control and Prevention were gridded by latitude and longitude and the grids were categorized into six epidemic levels based on the number of confirmed cases. The input of the convolutional autoencoder with long short-term memory was the distribution of confirmed cases 14 days before, whereas the output was the distribution of confirmed cases 7 days after the date of testing. The mean square error in this model was 1.664, the peak signal-to-noise ratio was 55.699, and the structural similarity index was 0.99, which were better than those of the corresponding results of the convolutional autoencoder. These results showed that the convolutional autoencoder with long short-term memory effectively and reliably predicted the spread of infectious disease in the contiguous United States.

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Deep Learning for Automatic Outlining Agricultural Parcels: Exploiting the Land Parcel Identification System

Cited by 42 publications

References 46 publications

U-Net Convolutional Networks for Mining Land Cover Classification Based on High-Resolution UAV Imagery

U-Net Convolutional Networks for Mining Land Cover Classification Based on High-Resolution UAV Imagery

A Deep Learning Architecture for Batch-Mode Fully Automated Field Boundary Detection

Early prediction of coronavirus disease epidemic severity in the contiguous United States based on deep learning

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