Tong-Xing Zheng scite author profile

Non-orthogonal multiple access (NOMA) is considered as a promising technology for improving the spectral efficiency (SE) in 5G. In this correspondence, we study the benefit of NOMA in enhancing energy efficiency (EE) for a multi-user downlink transmission, where the EE is defined as the ratio of the achievable sum rate of the users to the total power consumption. Our goal is to maximize the EE subject to a minimum required data rate for each user, which leads to a non-convex fractional programming problem. To solve it, we first establish the feasible range of the transmitting power that is able to support each user's data rate requirement. Then, we propose an EE-optimal power allocation strategy that maximizes the EE. Our numerical results show that NOMA has superior EE performance in comparison with conventional orthogonal multiple access (OMA).Index Terms-Non-orthogonal multiple access, energy efficiency, power allocation, fractional programming optimization.

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Physical Layer Security in Heterogeneous Cellular Networks

Wang

Zheng

Yuan

et al. 2016

IEEE Trans. Commun.

223

128

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Abstract-The heterogeneous cellular network (HCN) is a promising approach to the deployment of 5G cellular networks. This paper comprehensively studies physical layer security in a multi-tier HCN where base stations (BSs), authorized users and eavesdroppers are all randomly located. We first propose an access threshold based secrecy mobile association policy that associates each user with the BS providing the maximum truncated average received signal power beyond a threshold. Under the proposed policy, we investigate the connection probability and secrecy probability of a randomly located user, and provide tractable expressions for the two metrics. Asymptotic analysis reveals that setting a larger access threshold increases the connection probability while decreases the secrecy probability. We further evaluate the network-wide secrecy throughput and the minimum secrecy throughput per user with both connection and secrecy probability constraints. We show that introducing a properly chosen access threshold significantly enhances the secrecy throughput performance of a HCN.

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Secure Transmissions in Millimeter Wave Systems

Wang

Zheng

et al. 2017

IEEE Trans. Commun.

103

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Secure MISO Wiretap Channels With Multiantenna Passive Eavesdropper: Artificial Noise vs. Artificial Fast Fading

Wang

Zheng

Xia

2015

IEEE Trans. Wireless Commun.

129

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On Transmission Secrecy Outage of a Multi-Antenna System With Randomly Located Eavesdroppers

2014

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Tong-Xing Zheng

Energy-Efficient Transmission Design in Non-orthogonal Multiple Access

Physical Layer Security in Heterogeneous Cellular Networks

Secure Transmissions in Millimeter Wave Systems

Secure MISO Wiretap Channels With Multiantenna Passive Eavesdropper: Artificial Noise vs. Artificial Fast Fading

On Transmission Secrecy Outage of a Multi-Antenna System With Randomly Located Eavesdroppers

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