A Deep Learning Approach to the Detection of Gossans in the Canadian Arctic

Clabaut, Étienne; Lemelin, M.; Germain, Mickaël; Williamson, M C; Brassard, Éloïse

doi:10.3390/rs12193123

Cited by 6 publications

(3 citation statements)

References 38 publications

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“…Spectral indices, such as the Normalized Difference Vegetation Index (NDVI) and the Soil Adjusted Vegetation Index (SAVI) [12], utilize specific band ratios in multispectral data to highlight certain features, such as vegetation or water bodies. Band ratios can also be used to detect geological features of interest for mining exploration or open-pit surveys [13][14][15][16]. Unsupervised classification methods like K-means or ISODATA (Iterative Self-Organizing Data Analysis Technique) apply clustering algorithms to group pixels with similar spectral properties, requiring minimal human intervention [17,18].…”

Section: Introductionmentioning

confidence: 99%

Synthetic Data for Sentinel-2 Semantic Segmentation

Clabaut,

Foucher,

Bouroubi

et al. 2024

Remote Sensing

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Satellite observations provide critical data for a myriad of applications, but automated information extraction from such vast datasets remains challenging. While artificial intelligence (AI), particularly deep learning methods, offers promising solutions for land cover classification, it often requires massive amounts of accurate, error-free annotations. This paper introduces a novel approach to generate a segmentation task dataset with minimal human intervention, thus significantly reducing annotation time and potential human errors. ‘Samples’ extracted from actual imagery were utilized to construct synthetic composite images, representing 10 segmentation classes. A DeepResUNet was solely trained on this synthesized dataset, eliminating the need for further fine-tuning. Preliminary findings demonstrate impressive generalization abilities on real data across various regions of Quebec. We endeavored to conduct a quantitative assessment without reliance on manually annotated data, and the results appear to be comparable, if not superior, to models trained on genuine datasets.

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Section: Introductionmentioning

confidence: 99%

Synthetic Data for Sentinel-2 Semantic Segmentation

Clabaut,

Foucher,

Bouroubi

et al. 2024

Remote Sensing

Self Cite

View full text Add to dashboard Cite

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“…The verification results show that the spatial structure of the Bayesian network is effective in road traffic flow prediction under general conditions. In a few cases of nonrecurring congestion, it is more valuable to use a single-dimensional time series method to process data [ 7 ].…”

Section: Introductionmentioning

confidence: 99%

Big Data Analysis and Prediction System Based on Improved Convolutional Neural Network

Cao

Zhang

2022

Computational Intelligence and Neuroscience

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This paper presents a big data analysis and prediction system based on convolutional neural networks. Continuous template matching technology is used to analyze the distributed data structure of big data, and the information fusion processing of cloud service combination big data is combined with matching related detection methods, frequent item detection, and association rule feature extraction of high-dimensional fusion data. A clustering method is adopted to realize the classification and mining of cloud service portfolio big data. The hardware equipment of the car to detect the surrounding environment is complicated, and the combination of the convolutional neural network and the camera to detect the surrounding environment has become a research hotspot. However, simply using the convolutional neural network to process the camera data to control the turning angle of the car has the problems of long training time and low accuracy. An improved convolutional neural network is proposed. The experimental results show that the accuracy of data mining by this method is 12.43% and 21.76% higher than that of traditional methods, and the number of iteration steps is shorter, indicating that the timeliness of mining is higher. This network structure can effectively improve the training speed of the network and improve the accuracy of the network. It is proven that the convolutional neural network has faster training speed and higher accuracy.

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“…In view of the overfitting phenomenon caused by insufficient label samples in the supervised training, Wang et al [18] proposed a deep transit-based learning method and applied a deep residual network to hyperspectral image classification. Clabaut et al [19] proposed a deep learning method based on convolutional neural networks, and relying on geo big data that can be used for the detection of gossans, this approach could provide a useful precursor tool to identify gossans prior to more detailed surveys using hyperspectral imaging. Cai et al [20] applied the deep learning network model on a large scale to objectively divide the metallogenic area into a nonlinear spatial area, whose features can reflect the diversified geological data.…”

Section: Introductionmentioning

confidence: 99%

Automatic Identification and Dynamic Monitoring of Open-Pit Mines Based on Improved Mask R-CNN and Transfer Learning

et al. 2020

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As the ecological problems caused by mine development become increasingly prominent, the conflict between mining activity and environmental protection is gradually intensifying. There is an urgent problem regarding how to effectively monitor mineral exploitation activities. In order to automatic identify and dynamically monitor open-pit mines of Hubei Province, an open-pit mine extraction model based on Improved Mask R-CNN (Region Convolutional Neural Network) and Transfer learning (IMRT) is proposed, a set of multi-source open-pit mine sample databases consisting of Gaofen-1, Gaofen-2 and Google Earth satellite images with a resolution of two meters is constructed, and an automatic batch production process of open-pit mine targets is designed. In this paper, pixel-based evaluation indexes and object-based evaluation indexes are used to compare the recognition effect of IMRT, faster R-CNN, Maximum Likelihood (MLE) and Support Vector Machine (SVM). The IMRT model has the best performance in Pixel Accuracy (PA), Kappa and MissingAlarm, with values of 0.9718, 0.8251 and 0.0862, respectively, which shows that the IMRT model has a better effect on open-pit mine automatic identification, and the results are also used as evaluation units of the environmental damages of the mines. The evaluation results show that level Ⅰ (serious) land occupation and destruction of key mining areas account for 34.62%, and 36.2% of topographical landscape damage approached level I. This study has great practical significance in terms of realizing the coordinated development of mines and ecological environments.

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A Deep Learning Approach to the Detection of Gossans in the Canadian Arctic

Cited by 6 publications

References 38 publications

Synthetic Data for Sentinel-2 Semantic Segmentation

Synthetic Data for Sentinel-2 Semantic Segmentation

Big Data Analysis and Prediction System Based on Improved Convolutional Neural Network

Automatic Identification and Dynamic Monitoring of Open-Pit Mines Based on Improved Mask R-CNN and Transfer Learning

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