Abstract
In the scenarios of non-cooperative wireless communications, automatic modulation recognition (AMR) is an indispensable algorithm to recognize various types of signal modulations before demodulation in many internet of things applications. Convolutional neural network (CNN)-based AMR is considered as one of the most promising methods to achieve good recognition performance. However, conventional CNN-based methods are often unstable and also lack of generalized capabilities under varying noise conditions, because these methods are merely trained on specific dataset and can only work at the corresponding noise condition. Hence, it is hard to apply these methods directly in practical systems. In this paper, we propose a CNN-based robust automatic modulation recognition (RAMR) method to recognize three types of modulation signals, i.e., frequency shift key (FSK), phase shift key (PSK), and quadrature amplitude modulation (QAM). The proposed method is trained on a mixed dataset for extracting common features under varying noise scenarios. Simulation results show that our proposed generalized CNN-based architecture can achieve higher robustness and convenience than conventional ones.
Highlights
Automatic modulation recognition (AMR) is an essential technology in non-cooperative communication systems or internet of things applications for demodulation tasks of unknown signals, and it has various applications in military and civilian strategies [1]–[9]
We propose a generalized Convolutional neural network (CNN)-based robust automatic modulation recognition (RAMR) method, and it has generalized ability to against varying noise condition with different SNRs
Scc(j) is the number of test samples at SNR=j dB, which are correctly classified. These performances are measured on the independent in-phase and quadrature (IQ) testing dataset, and the test data of the traditional AMR methods are a set of feature vectors extracted from the IQ test dataset
Summary
Automatic modulation recognition (AMR) is an essential technology in non-cooperative communication systems or internet of things applications for demodulation tasks of unknown signals, and it has various applications in military and civilian strategies [1]–[9]. Paper [48] proposed combined IQ sample-based CNN and constellation diagrambased CNN method to recognize different modulation types. These CNN-based AMR methods have been proposed to demonstrate better performance than traditional methods, most of them are trained by dataset with single signal-to-noise (SNR).
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