Abstract
Emitter signal waveform recognition and classification are necessary survival techniques in electronic warfare systems. The emitters use various techniques for power management and complex intra-pulse modulations, which can create what looks like a noisy signal to an intercept receiver, so emitter signal waveform recognition at a low signal-to-noise ratio (SNR) has gained increased attention. In this study, we propose an autocorrelation feature image construction technique (ACFICT) combined with a convolutional neural network (CNN) to maintain the unique feature of each signal, and a structure optimization for CNN input layer called hybrid model is designed to achieve image enhancement of the signal autocorrelation, which is different from using a single image combined with CNN to complete classification. We demonstrate the performance of ACFICT by comparing feature images generated by different signal pre-processing algorithms, and the evaluation indicators are signal recognition rate, image stability degree, and image restoration degree. This paper simulates six types of the signals by combining ACFICT with three types of hybrid model, the simulation results compared with the literature show that the proposed methods not only has a high universality, but also better adapts to waveform recognition at low SNR environment. When the SNR is –6 dB, the overall recognition rate of the method reaches 88%.
Highlights
Electronic warfare (EW) is a military action whose objective is the control of the electromagnetic spectrum (EMS)
As for the decrease of pixel intensity of feature images, which may be caused by signal-to-noise ratio (SNR) reduction, we further present a multiple-autocorrelation method to overcome the influence of low-SNR signal feature images and proposed the optimization scheme of an input-layer image based on multiple-autocorrelation theory
The input layer optimization scheme based on autocorrelation feature image construction technique (ACFICT) can further improve the signal recognition rate at low SNR
Summary
Electronic warfare (EW) is a military action whose objective is the control of the electromagnetic spectrum (EMS). This objective is achieved through offensive electronic attack (EA), defensive electronic protection (EP), intelligence gathering, and threat recognition electronic warfare support (ES). Electronic intelligence (ELINT) receiver via prolonged and accurate measurement of all the characteristics of a radar emitter (waveform and antenna patterns) in order to provide the necessary data for its analysis and modeling of the associated weapon system, as well as for its identification to be logged in the emitter libraries [1]. As the premise and basis of recognition, the emitter signal waveform classification is an important link to ELINT.
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