Justin G. Metcalf scite author profile

Abstract-Low probability of intercept (LPI) communication generally relies on the presence of noise to obfuscate a covert signal through the use of spectral spreading or hopping. In contrast, this paper addresses the use of ambient interference from other man-made emissions as a means to mask the presence of covert communication. Specifically, the high power, wide bandwidth, and repeating structure of pulsed radar systems provide an advantageous framework within which to embed a communication signal. The operating paradigm considered here is that of an RF tag/transponder that is illuminated by the radar and intends to covertly communicate with the radar or some other desired receiver while being masked by the ambient radar backscatter to avoid detection by an intercept receiver. Communication takes place on an intra-pulse (or individual pulse) basis to maximize the data rate. The impact of multipath, and its exploitation using time reversal to achieve spatio-temporal focusing, is considered. The processing gain for the destination receiver and intercept receiver are derived analytically and subsequently used to optimize the parameterization of communication symbol design.

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Simultaneous radar and communication emissions from a common aperture, Part II: Experimentation

McCormick

Ravenscroft

Blunt

et al. 2017

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Analysis of symbol-design strategies for intrapulse radar-embedded communications

Metcalf

Şahin

Blunt

et al. 2015

IEEE Trans. Aerosp. Electron. Syst.

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Justin G. Metcalf

Simultaneous radar and communications emissions from a common aperture, Part I: Theory

A novel approach for embedding communication symbols into physical radar waveforms

Performance Characteristics and Metrics for Intra-Pulse Radar-Embedded Communication

Simultaneous radar and communication emissions from a common aperture, Part II: Experimentation

Analysis of symbol-design strategies for intrapulse radar-embedded communications

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