Visible to the public Biblio

Filters: Author is Wang, H. M.  [Clear All Filters]
2018-03-05
Xu, Y., Wang, H. M., Yang, Q., Huang, K. W., Zheng, T. X..  2017.  Cooperative Transmission for Physical Layer Security by Exploring Social Awareness. 2017 IEEE Globecom Workshops (GC Wkshps). :1–6.

Social awareness and social ties are becoming increasingly fashionable with emerging mobile and handheld devices. Social trust degree describing the strength of the social ties has drawn lots of research interests in many fields including secure cooperative communications. Such trust degree reflects the users' willingness for cooperation, which impacts the selection of the cooperative users in the practical networks. In this paper, we propose a cooperative relay and jamming selection scheme to secure communication based on the social trust degree under a stochastic geometry framework. We aim to analyze the involved secrecy outage probability (SOP) of the system's performance. To achieve this target, we propose a double Gamma ratio (DGR) approach through Gamma approximation. Based on this, the SOP is tractably obtained in closed form. The simulation results verify our theoretical findings, and validate that the social trust degree has dramatic influences on the network's secrecy performance.

2018-02-02
Zheng, T. X., Yang, Q., Wang, H. M., Deng, H., Mu, P., Zhang, W..  2017.  Improving physical layer security for wireless ad hoc networks via full-duplex receiver jamming. 2017 IEEE 18th International Workshop on Signal Processing Advances in Wireless Communications (SPAWC). :1–5.

This paper studies physical layer security in a wireless ad hoc network with numerous legitimate transmitter-receiver pairs and passive eavesdroppers. A hybrid full-/half-duplex receiver deployment strategy is proposed to secure legitimate transmissions, by letting a fraction of legitimate receivers work in the full-duplex (FD) mode sending jamming signals to confuse eavesdroppers upon their own information receptions, and other receivers work in the half-duplex mode just receiving desired signals. This paper aims to properly choose the fraction of the FD receivers to enhance network security. Tractable expressions for the connection outage probability and the secrecy outage probability of a typical legitimate link are first derived, based on which the network-wide secrecy throughput is maximized. Some insights into the optimal fraction are further developed. It is concluded that the fraction of the FD receivers triggers a non-trivial trade-off between reliability and secrecy, and the optimal fraction significantly improves the network security performance.