Journal ArticleDOI
Spectral–Spatial Classification of Hyperspectral Data Using Local and Global Probabilities for Mixed Pixel Characterization
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TLDR
This paper presents a new spectral-spatial classifier for hyperspectral data that specifically addresses the issue of mixed pixel characterization and indicates that the proposed classifier leads to state-of-the-art performance when compared with other approaches, particularly in scenarios in which very limited training samples are available.Abstract:
Remotely sensed hyperspectral image classification is a very challenging task. This is due to many different aspects, such as the presence of mixed pixels in the data or the limited information available a priori. This has fostered the need to develop techniques able to exploit the rich spatial and spectral information present in the scenes while, at the same time, dealing with mixed pixels and limited training samples. In this paper, we present a new spectral–spatial classifier for hyperspectral data that specifically addresses the issue of mixed pixel characterization. In our presented approach, the spectral information is characterized both locally and globally, which represents an innovation with regard to previous approaches for probabilistic classification of hyperspectral data. Specifically, we use a subspace-based multinomial logistic regression method for learning the posterior probabilities and a pixel-based probabilistic support vector machine classifier as an indicator to locally determine the number of mixed components that participate in each pixel. The information provided by local and global probabilities is then fused and interpreted in order to characterize mixed pixels. Finally, spatial information is characterized by including a Markov random field (MRF) regularizer. Our experimental results, conducted using both synthetic and real hyperspectral images, indicate that the proposed classifier leads to state-of-the-art performance when compared with other approaches, particularly in scenarios in which very limited training samples are available.read more
Citations
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Journal ArticleDOI
Spectral–Spatial Residual Network for Hyperspectral Image Classification: A 3-D Deep Learning Framework
TL;DR: An end-to-end spectral–spatial residual network that takes raw 3-D cubes as input data without feature engineering for hyperspectral image classification and achieves the state-of-the-art HSI classification accuracy in agricultural, rural–urban, and urban data sets.
Journal ArticleDOI
Advanced Spectral Classifiers for Hyperspectral Images: A review
TL;DR: The classification of hyperspectral images is a challenging task for a number of reasons, such as the presence of redundant features, the imbalance among the limited number of available training samples, and the high dimensionality of the data.
Journal ArticleDOI
Recent Advances on Spectral–Spatial Hyperspectral Image Classification: An Overview and New Guidelines
TL;DR: A concept of spatial dependency system that involves pixel dependency and label dependency, with two main factors: neighborhood covering and neighborhood importance is developed, and several representative spectral–spatial classification methods are applied on real-world hyperspectral data.
Journal ArticleDOI
A new deep convolutional neural network for fast hyperspectral image classification
TL;DR: A new CNN architecture for the classification of hyperspectral images is presented, a 3-D network that uses both spectral and spatial information and implements a border mirroring strategy to effectively process border areas in the image.
Journal ArticleDOI
New Frontiers in Spectral-Spatial Hyperspectral Image Classification: The Latest Advances Based on Mathematical Morphology, Markov Random Fields, Segmentation, Sparse Representation, and Deep Learning
Pedram Ghamisi,Emmanuel Maggiori,Shutao Li,Roberto Souza,Yuliya Tarablaka,Gabriele Moser,Andrea De Giorgi,Leyuan Fang,Yushi Chen,Mingmin Chi,Sebastiano B. Serpico,Jon Atli Benediktsson +11 more
TL;DR: In recent years, airborne and spaceborne hyperspectral imaging systems have advanced in terms of spectral and spatial resolution, which makes the data sets they produce a valuable source for land cover classification.
References
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Classification of hyperspectral remote sensing images with support vector machines
Farid Melgani,Lorenzo Bruzzone +1 more
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Vertex component analysis: a fast algorithm to unmix hyperspectral data
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Remote sensing, models, and methods for image processing
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