Covert Wireless Communications with Channel Inversion Power Control in Rayleigh Fading
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Considering Rayleigh fading channels, in this work we adopt channel inversion power control to achieve covert communications, where a transmitter can possibly hide itself from a warden while transmitting information to a receiver. Specifically, we examine the performance of the achieved covert communications in two scenarios in terms of the effective covert rate (ECR), which quantifies the amount of information that the transmitter can reliably convey to the receiver subject to the warden's detection error probability being no less than some specific value. In the first scenario, the noise uncertainty at the warden serves as the enabler of covert communications and our examination shows that increasing the noise uncertainty at the warden and the receiver simultaneously may not continuously improve the ECR. In the second scenario, covert communications are aided by a full-duplex receiver, which always transmits artificial noise (AN) with a random power. Our analysis indicates that the achieved ECR approaches to an upper bound as the transmit power of AN approaches to infinity. This work provides useful guidelines and performance limits on achieving covert communications and potentially hiding a transmitter in practical Rayleigh fading channels.
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