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Main Authors: Hu, Jinsong, Yan, Shihao, Shu, Feng, Wang, Jiangzhou
Format: Preprint
Published: 2018
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Online Access:https://arxiv.org/abs/1805.08925
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_version_ 1866913566208032768
author Hu, Jinsong
Yan, Shihao
Shu, Feng
Wang, Jiangzhou
author_facet Hu, Jinsong
Yan, Shihao
Shu, Feng
Wang, Jiangzhou
contents This work examines the possibility, performance limits, and associated costs for a self-sustained relay to transmit its own covert information to a destination on top of forwarding the source's information. Since the source provides energy to the relay for forwarding its information, the source does not allow the relay's covert transmission and is to detect it. Considering the time switching (TS) and power splitting (PS) schemes for energy harvesting, where all the harvested energy is used for transmission at the self-sustained relay, we derive the minimum detection error probability $ξ^{\ast}$ at the source, based on which we determine the maximum effective covert rate $Ψ^{\ast}$ subject to a given covertness constraint on $ξ^{\ast}$. Our analysis shows that $ξ^{\ast}$ is the same for the TS and PS schemes, which leads to the fact that the cost of achieving $Ψ^{\ast}$ in both the two schemes in terms of the required increase in the energy conversion efficiency at the relay is the same, although the values of $Ψ^{\ast}$ in these two schemes can be different in specific scenarios. For example, the TS scheme outperforms the PS scheme in terms of achieving a higher $Ψ^{\ast}$ when the transmit power at the source is relatively low. If the covertness constraint is tighter than a specific value, it is the covertness constraint that limits $Ψ^{\ast}$, and otherwise it is upper bound on the energy conversion efficiency that limits $Ψ^{\ast}$.
format Preprint
id arxiv_https___arxiv_org_abs_1805_08925
institution arXiv
publishDate 2018
record_format arxiv
spellingShingle Covert Transmission with a Self-sustained Relay
Hu, Jinsong
Yan, Shihao
Shu, Feng
Wang, Jiangzhou
Information Theory
This work examines the possibility, performance limits, and associated costs for a self-sustained relay to transmit its own covert information to a destination on top of forwarding the source's information. Since the source provides energy to the relay for forwarding its information, the source does not allow the relay's covert transmission and is to detect it. Considering the time switching (TS) and power splitting (PS) schemes for energy harvesting, where all the harvested energy is used for transmission at the self-sustained relay, we derive the minimum detection error probability $ξ^{\ast}$ at the source, based on which we determine the maximum effective covert rate $Ψ^{\ast}$ subject to a given covertness constraint on $ξ^{\ast}$. Our analysis shows that $ξ^{\ast}$ is the same for the TS and PS schemes, which leads to the fact that the cost of achieving $Ψ^{\ast}$ in both the two schemes in terms of the required increase in the energy conversion efficiency at the relay is the same, although the values of $Ψ^{\ast}$ in these two schemes can be different in specific scenarios. For example, the TS scheme outperforms the PS scheme in terms of achieving a higher $Ψ^{\ast}$ when the transmit power at the source is relatively low. If the covertness constraint is tighter than a specific value, it is the covertness constraint that limits $Ψ^{\ast}$, and otherwise it is upper bound on the energy conversion efficiency that limits $Ψ^{\ast}$.
title Covert Transmission with a Self-sustained Relay
topic Information Theory
url https://arxiv.org/abs/1805.08925