HYPERSPECTRAL IMAGE ANALYSIS USING A CUSTOM SPECTRAL CONVOLUTIONAL NEURAL NETWORK
Shafaey, M., ElBery, M., Salem, M., Moushier, H., A. El-Dahshan, E., Tolba, M. (2022). HYPERSPECTRAL IMAGE ANALYSIS USING A CUSTOM SPECTRAL CONVOLUTIONAL NEURAL NETWORK. EKB Journal Management System, 22(4), 146-158. doi: 10.21608/ijicis.2022.147175.1198
Mayar Aly Shafaey; Maryam ElBery; Mohammed A.-M. Salem; Hala Moushier; El-Sayed A. El-Dahshan; Mohamed Tolba. "HYPERSPECTRAL IMAGE ANALYSIS USING A CUSTOM SPECTRAL CONVOLUTIONAL NEURAL NETWORK". EKB Journal Management System, 22, 4, 2022, 146-158. doi: 10.21608/ijicis.2022.147175.1198
Shafaey, M., ElBery, M., Salem, M., Moushier, H., A. El-Dahshan, E., Tolba, M. (2022). 'HYPERSPECTRAL IMAGE ANALYSIS USING A CUSTOM SPECTRAL CONVOLUTIONAL NEURAL NETWORK', EKB Journal Management System, 22(4), pp. 146-158. doi: 10.21608/ijicis.2022.147175.1198
Shafaey, M., ElBery, M., Salem, M., Moushier, H., A. El-Dahshan, E., Tolba, M. HYPERSPECTRAL IMAGE ANALYSIS USING A CUSTOM SPECTRAL CONVOLUTIONAL NEURAL NETWORK. EKB Journal Management System, 2022; 22(4): 146-158. doi: 10.21608/ijicis.2022.147175.1198

HYPERSPECTRAL IMAGE ANALYSIS USING A CUSTOM SPECTRAL CONVOLUTIONAL NEURAL NETWORK

International Journal of Intelligent Computing and Information Sciences
Article 10, Volume 22, Issue 4, December 2022, Page 146-158  XML PDF (723.23 K)
Document Type: Original Article
DOI: 10.21608/ijicis.2022.147175.1198
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Authors
Mayar Aly Shafaey email orcid 1; Maryam ElBeryorcid 2; Mohammed A.-M. Salemorcid 3; Hala Moushierorcid 4; El-Sayed A. El-Dahshan5; Mohamed Tolba6
1Faculty of Information Technology, National Egyptian E-Learning University
2Ain Shams University - FAculty of Computers
3FCIS _Ain Shams
4Fcis - Ain shams univ.
5Abbasia
6FCIS _ Ain Shams University
Abstract
In recent time, the most applied classification method for hyperspectral images is based on the supervised deep learning approach. The hyperspectral images require special handling while it consists of hundreds of bands / channels. In this article, the experiments are conducted using one of the widespread deep learning models, Convolutional Neural Networks (CNNs), specifically, Csutom Spectral CNN architecture (CSCNN). The introduced network is based on the data reduction and data normalization. It firstly ommits the unnecessary data channels and retains the meaningful ones. Then, it passes the remaining data through the CNN layers (convolutional, rectified linear unit, fully connected, dropout,…etc) until reaches the classification layer. The experiments are applied on four benchmarcks [hyperspectral datasets], namely, Salinas-A, Kenndy Space Center (KSC), Indian Pines (IP), and Pavia University (Pavia-U). The proposed model achieved an overall accuracy more than 99.50 %. In last, a comparison versus the state of the art is also introduced.
Keywords
Pixel-based Image Classification; Principal Component Analysis (PCA); Deep Learning
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