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Deep learning algorithms for hyperspectral remote sensing classifications: an applied review

Mahesh Pal

2024International Journal of Remote Sensing13 citationsDOI

Abstract

Over last decade, hundreds of deep learning algorithms using CNN, ViT, MLP, and deep LSTM are proposed to classify hyperspectral remote sensing images with accuracy reaching to almost 100% with testing samples. Due to the availability of limited training/test data for remote sensing classifications, achieving very high accuracy may lead to the problem of selecting a suitable deep classifier. In this study, we provide a review of these algorithms in terms of classified image, training sample size as well as patch size. We then compare the results of twelve existing deep learning algorithms with three hyperspectral datasets in terms of classification accuracy, quality of classified image as well as the area under each land cover class. Results from this study suggest that in spite of achieving high classification accuracy, a comparison of classified image as well as the area under different classes indicates no clear-cut winner. Variation in classifying unlabelled area to different classes as well as in area calculation creates doubt about the suitability of different algorithms, which can be used for accurate mapping of large areas for various applications including deforestation and agricultural studies.

Topics & Concepts

Hyperspectral imagingComputer scienceArtificial intelligenceClassifier (UML)Deep learningLand coverRemote sensing applicationRemote sensingMachine learningPattern recognition (psychology)AlgorithmData miningLand useGeographyEngineeringCivil engineeringRemote-Sensing Image ClassificationRemote Sensing and Land UseRemote Sensing in Agriculture
Deep learning algorithms for hyperspectral remote sensing classifications: an applied review | Litcius