Relaying via Cooperative Jamming in Covert Wireless Communications

In this work, a covert communication scheme under block-fading channels is proposed where the relay, apart from forwarding source's information to the destination, also acts as a cooperative jammer. Stating precisely, the relay amplifies source's signal when required to relay the signal to the destination, otherwise it transmits artificial noise with random power, causing errors in the received signal statistics of the adversary, Willie, who employs a radiometer for detection of covert transmissions. Stating the condition under which Willie makes detection errors, we first find the optimal detection threshold of Willie's detector and his minimum detection error probability and then derive the expected value of this error probability, establishing Willies detection performance from the perspective of the covert communication pair. Furthermore, for a given maximum transmit power at the relay, we derive a closed-form expression for the optimal transmit power of covert communication. Our numerical results illustrate the advantage cooperative jamming offers for achieving covertness, and demonstrate how the choice of transmit power used for covert transmissions is affected by Willie's error performance and required level of covertness.

[1]  Jun Li,et al.  Covert Communication Achieved by a Greedy Relay in Wireless Networks , 2017, IEEE Transactions on Wireless Communications.

[2]  Lizhong Zheng,et al.  Fundamental Limits of Communication With Low Probability of Detection , 2015, IEEE Transactions on Information Theory.

[3]  Jun Li,et al.  Covert Communications with a Full-Duplex Receiver over Wireless Fading Channels , 2017, 2018 IEEE International Conference on Communications (ICC).

[4]  Ashutosh Sabharwal,et al.  Passive Self-Interference Suppression for Full-Duplex Infrastructure Nodes , 2013, IEEE Transactions on Wireless Communications.

[5]  Kai-Kit Wong,et al.  Optimal Cooperative Jamming to Enhance Physical Layer Security Using Relays , 2011, IEEE Transactions on Signal Processing.

[6]  Mayank Bakshi,et al.  Reliable deniable communication: Hiding messages in noise , 2013, 2013 IEEE International Symposium on Information Theory.

[7]  Xiangyun Zhou,et al.  On Covert Communication With Noise Uncertainty , 2016, IEEE Communications Letters.

[8]  Xiangyun Zhou,et al.  Covert Communication in Fading Channels under Channel Uncertainty , 2017, 2017 IEEE 85th Vehicular Technology Conference (VTC Spring).

[9]  Rohit Negi,et al.  Guaranteeing Secrecy using Artificial Noise , 2008, IEEE Transactions on Wireless Communications.

[10]  Boulat A. Bash,et al.  Limits of Reliable Communication with Low Probability of Detection on AWGN Channels , 2012, IEEE Journal on Selected Areas in Communications.

[11]  Steven P. Weber,et al.  On Cooperative Relaying Schemes for Wireless Physical Layer Security , 2010, IEEE Transactions on Signal Processing.

[12]  Mary Ann Weitnauer,et al.  Achieving Undetectable Communication , 2015, IEEE Journal of Selected Topics in Signal Processing.

[13]  Mohamed-Slim Alouini,et al.  On the Jamming Power Allocation for Secure Amplify-and-Forward Relaying via Cooperative Jamming , 2013, IEEE Journal on Selected Areas in Communications.

[14]  Matthew R. McKay,et al.  Secure Transmission With Artificial Noise Over Fading Channels: Achievable Rate and Optimal Power Allocation , 2010, IEEE Transactions on Vehicular Technology.

[15]  Saikat Guha,et al.  Covert Communication in the Presence of an Uninformed Jammer , 2016, IEEE Transactions on Wireless Communications.

[16]  Mazen O. Hasna,et al.  End-to-end performance of transmission systems with relays over Rayleigh-fading channels , 2003, IEEE Trans. Wirel. Commun..

[17]  Xiangyun Zhou,et al.  Covert communication with finite blocklength in AWGN channels , 2017, 2017 IEEE International Conference on Communications (ICC).

[18]  Sachin Katti,et al.  Full duplex radios , 2013, SIGCOMM.