H
Hailin Zhang
Researcher at Xidian University
Publications - 286
Citations - 4662
Hailin Zhang is an academic researcher from Xidian University. The author has contributed to research in topics: Relay & Wireless. The author has an hindex of 33, co-authored 274 publications receiving 3511 citations. Previous affiliations of Hailin Zhang include Southeast University.
Papers
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Reliable Computation Offloading for Edge-Computing-Enabled Software-Defined IoV
TL;DR: Performance evaluation results validate that the proposed scheme is indeed capable of reducing the latency as well as improving the reliability of the EC-SDIoV.
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Orbital Angular Momentum for Wireless Communications
TL;DR: In this article, the fundamental theory of OAM and the OAM-based wireless communications is introduced and the research challenges regarding OAM signal generation, OAM beam converging, and OAM reception are discussed.
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Heterogeneous statistical QoS provisioning over 5G mobile wireless networks
TL;DR: This article proposes a novel heterogeneous statistical QoS provisioning architecture for 5G mobile wireless networks and shows that the proposed architecture and schemes significantly outperform the existing traditional statistical delay-bounded QS provisioning schemes in terms of satisfying the heterogeneous delay- bounded QoS requirements while maximizing the aggregate system throughput over 5GMobile wireless networks.
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Statistical-QoS Driven Energy-Efficiency Optimization Over Green 5G Mobile Wireless Networks
TL;DR: The obtained numerical results show that the developed statistical QoS-driven green power allocation schemes can optimize the EPE over 5G mobile wireless networks, thus enabling the effective implementation of green 5G wireless networks.
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Full-Duplex Spectrum-Sensing and MAC-Protocol for Multichannel Nontime-Slotted Cognitive Radio Networks
TL;DR: This paper proposes a novel framework for multichannel nontime-slotted CRNs, where the PUs randomly access and leave the licensed channels and develops and analyzes the wireless full-duplex spectrum sensing (FD-SS) protocol and FDC-MAC protocol, which can efficiently guarantee the high-throughput transmission of the PU and increase the channel utilization of the SUs.