An optimized Radio Modulation Classifier Using Deep Neural Network

2020 12th International Conference on Electrical Engineering (ICEENG) Pub Date : 2020-07-01 DOI:10.1109/ICEENG45378.2020.9171707

Ayman Emam, M. Shalaby, H. Mansour, H. A. Bakr, Mohamed A. Aboelazm

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引用次数: 1

Abstract

Automatic Modulation Classification (AMC) is vastly used in civilian and military equipment for instance; the signals in satellite, GSM, Wi-Fi…etc. The identification and handling of the features of these signals became more sophisticated due to the predominating progression of modern communication technology mainly in the past decade. In the last few years, researchers have begun to study the use of Deep Neural Network (DNN) to identify different types of modulation, and by using it the task has become easier, and we can get a significant improvement in the classification performance compared to many traditional methods. In this paper an automatic modulation Classification model is proposed where deep learning is used to classify different types of modulation at different signal to noise ratios (SNRs), where we optimize the conventional convolutional neural network (CNN) architecture of O’Shea (2016) [1] by selecting the values of the CNN hyperparameters that result in obtaining the best accuracy for each SNR. The optimized model uses CNN4 that increases recognition accuracy of radio modulation over O’Shea’s mode.

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基于深度神经网络的无线电调制分类器优化

例如，自动调制分类(AMC)广泛应用于民用和军用设备;卫星、GSM、Wi-Fi等的信号。由于近十年来现代通信技术的飞速发展，对这些信号特征的识别和处理变得更加复杂。近年来，研究人员开始研究使用深度神经网络(Deep Neural Network, DNN)来识别不同类型的调制，使用它可以使任务变得更加容易，并且与许多传统方法相比，我们可以在分类性能上得到显着提高。本文提出了一种自动调制分类模型，其中使用深度学习对不同信噪比(SNR)下的不同类型调制进行分类，通过选择CNN超参数的值来优化O’shea(2016)[1]的传统卷积神经网络(CNN)架构，从而获得每个信噪比的最佳精度。优化后的模型采用了CNN4，在O’shea模式的基础上提高了无线电调制的识别精度。

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2020 12th International Conference on Electrical Engineering (ICEENG)

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