English

Covert Wireless Communication with Artificial Noise Generation

Information Theory 2018-09-25 v5 Cryptography and Security Networking and Internet Architecture Signal Processing math.IT

Abstract

Covert communication conceals the transmission of the message from an attentive adversary. Recent work on the limits of covert communication in additive white Gaussian noise (AWGN) channels has demonstrated that a covert transmitter (Alice) can reliably transmit a maximum of O(n)\mathcal{O}\left(\sqrt{n}\right) bits to a covert receiver (Bob) without being detected by an adversary (Warden Willie) in nn channel uses. This paper focuses on the scenario where other friendly nodes distributed according to a two-dimensional Poisson point process with density mm are present in the environment. We propose a strategy where the friendly node closest to the adversary, without close coordination with Alice, produces artificial noise. We show that this method allows Alice to reliably and covertly send O(min{n,mγ/2n})\mathcal{O}(\min\{{n,m^{\gamma/2}\sqrt{n}}\}) bits to Bob in nn channel uses, where γ\gamma is the path-loss exponent. Moreover, we also consider a setting where there are NwN_{\mathrm{w}} collaborating adversaries uniformly and randomly located in the environment and show that in nn channel uses, Alice can reliably and covertly send O(min{n,mγ/2nNwγ})\mathcal{O}\left(\min\left\{n,\frac{m^{\gamma/2} \sqrt{n}}{N_{\mathrm{w}}^{\gamma}}\right\}\right) bits to Bob when γ>2\gamma >2, and O(min{n,mnNw2log2Nw})\mathcal{O}\left(\min\left\{n,\frac{m \sqrt{n}}{N_{\mathrm{w}}^{2}\log^2 {N_{\mathrm{w}}}}\right\}\right) when γ=2\gamma = 2. Conversely, we demonstrate that no higher covert throughput is possible for γ>2\gamma>2.

Keywords

Cite

@article{arxiv.1709.07096,
  title  = {Covert Wireless Communication with Artificial Noise Generation},
  author = {Ramin Soltani and Dennis Goeckel and Don Towsley and Boulat Bash and Saikat Guha},
  journal= {arXiv preprint arXiv:1709.07096},
  year   = {2018}
}
R2 v1 2026-06-22T21:50:00.903Z