Please use this identifier to cite or link to this item: http://hdl.handle.net/2080/3255
Title: Deep Learning-Based Modulation Classification Using Time and Stockwell Domain Channeling
Authors: Hiremath, Shrishail M
Behura, Sambit
Kedia, Subham
Deshmukh, Siddharth
Patra, Sarat Kumar
Keywords: Deep learning
Convolutional neural network
Modulation classification
Stockwell transform
Discrete orthogonal Stockwell transform
Time and Stockwell domain channeling.
Issue Date: Feb-2019
Citation: 25th National Conference on Communication, IISc Bangalore, India,20-23 February,2019
Abstract: Deep learning techniques have recently exhibited unprecedented success in classification problems with ill-defined mathematical models. In this paper, we apply deep learning for RF data analysis and classification. We present a novel method of using I-Q time samples to form images with ‘Time and Discrete Orthonormal Stockwell Transform Domain Channels’ which are used for training a convolutional neural network (CNN) for radio modulation classification. Also, a concept inspired from transfer learning is used in extending the number of output classes of the CNN, which helps the network to estimate the approximate SNR of the input signal as well and further improve the classification accuracy. Such a network trained on Time and Stockwell Channeled Images performs superior to similar networks that are trained on just raw I-Q time series samples or timefrequency images, especially when training samples are less. The network achieved an overall classification accuracy of 97.3% at 8 dB SNR over a class of 10 radio modulation schemes (for both digital and analog systems). The study shows that such a trained network can be well applied to achieve high classification accuracies at low and moderate SNR scenarios.
Description: Copyright of this document belongs to proceedings publisher.
URI: http://hdl.handle.net/2080/3255
Appears in Collections:Conference Papers

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