Convolutional Neural Network with Expert Knowledge for Hyperspectral Remote Sensing Imagery Classification

The recent interest in artificial intelligence and machine learning has partly contributed to an interest in the use of such approaches for hyperspectral remote sensing (HRS) imagery classification, as evidenced by the increasing number of deep framework with deep convolutional neural networks (CNN)...

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Bibliographic Details
Published in:KSII transactions on Internet and information systems 2019, 13(8), , pp.3917-3941
Main Authors: Wu, Chunming, Wang, Meng, Gao, Lang, Song, Weijing, Tian, Tian, Choo, Kim-Kwang Raymond
Format: Article
Language:English
Subjects:
Artificial intelligence
Machine learning
Neural networks
Remote sensing
컴퓨터학
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Summary:The recent interest in artificial intelligence and machine learning has partly contributed to an interest in the use of such approaches for hyperspectral remote sensing (HRS) imagery classification, as evidenced by the increasing number of deep framework with deep convolutional neural networks (CNN) structures proposed in the literature. In these approaches, the assumption of obtaining high quality deep features by using CNN is not always easy and efficient because of the complex data distribution and the limited sample size. In this paper, conventional handcrafted learning-based multi features based on expert knowledge are introduced as the input of a special designed CNN to improve the pixel description and classification performance of HRS imagery. The introduction of these handcrafted features can reduce the complexity of the original HRS data and reduce the sample requirements by eliminating redundant information and improving the starting point of deep feature training. It also provides some concise and effective features that are not readily available from direct training with CNN. Evaluations using three public HRS datasets demonstrate the utility of our proposed method in HRS classification. Keywords: Hyperspectral imagery classification, convolutional neural network, principal component analysis, gray-level co-occurrence matrix, differential Mathematical morphology
ISSN:1976-7277
1976-7277
DOI:10.3837/tiis.2019.08.006