2019
DOI: 10.3390/ijgi8040160
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A Spectral Feature Based Convolutional Neural Network for Classification of Sea Surface Oil Spill

Abstract: Spectral characteristics play an important role in the classification of oil film, but the presence of too many bands can lead to information redundancy and reduced classification accuracy. In this study, a classification model that combines spectral indices-based band selection (SIs) and one-dimensional convolutional neural networks was proposed to realize automatic oil films classification using hyperspectral remote sensing images. Additionally, for comparison, the minimum Redundancy Maximum Relevance (mRMR)… Show more

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Cited by 59 publications
(27 citation statements)
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“…Although the first U-Net models were introduced in 2015, the first models for land-cover classification have been published since 2019, such as land covers in urban [35]- [37], forest [38], coastal areas [39] and sea surface. Most of studies developed the original U-Net with the use of secondary satellite images [40]. For example, A. Stoian et al [41] have started to use 10m-resolution Sentinel-2 satellite images for land use/cover mapping in many polygons in France.…”
Section: Introductionmentioning
confidence: 99%
“…Although the first U-Net models were introduced in 2015, the first models for land-cover classification have been published since 2019, such as land covers in urban [35]- [37], forest [38], coastal areas [39] and sea surface. Most of studies developed the original U-Net with the use of secondary satellite images [40]. For example, A. Stoian et al [41] have started to use 10m-resolution Sentinel-2 satellite images for land use/cover mapping in many polygons in France.…”
Section: Introductionmentioning
confidence: 99%
“…We believe that the algorithm of two kinds of classifiers is the main reason that the classification accuracy of the same tree species differs greatly. For deep convolutional neural networks, each neuron is no longer connected with all neurons in the upper layer but only some of them [23,40,64]. Furthermore, the use of an activation function increases the nonlinearity of the neural network [24].…”
Section: Application Of Deep Learning In Tree Species Identificationmentioning
confidence: 99%
“…Furthermore, the use of an activation function increases the nonlinearity of the neural network [24]. Compared with other functions [65], the ReLU function can effectively alleviate the problem of overfitting and increase the accuracy of tree species classification [66], so the convolutional neural network can achieve better learning by keeping as many important parameters as possible and removing a large number of unimportant parameters [64,67]. Although random forest has strong generalization ability, it is easy to overfit the training data with large noise [39,54,68].…”
Section: Application Of Deep Learning In Tree Species Identificationmentioning
confidence: 99%
“…Therefore, this network can provide a more precise prediction than former remote sensing computing strategies such as unsupervised learning, Random Forest [30,31], pixel-based, and Support Vector Machine [32][33][34]. In the recent three years, various upgraded NN networks for standard land-cover classification were proposed, such as Convolutional Neural Network (CNN) [33,35,36], R-CNN, U-Net, and Mask-RCNN [35,37,38]. For the coastal wetland classification, these deep-learning-based models using both spatial and spectral data are considered a potential end-to-end solution to separate objects affected by water.…”
Section: Introductionmentioning
confidence: 99%