Lu Wang
Shenzhen University
68 Papers
313 Citations
Lu Wang is an academic researcher from Shenzhen University. The author has contributed to research in topics: Computer science & Throughput. The author has an hindex of 15, co-authored 60 publications. Previous affiliations of Lu Wang include Hong Kong University of Science and Technology.
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Papers
Pilot: Passive Device-Free Indoor Localization Using Channel State Information
Jiang Xiao,Kaishun Wu,Youwen Yi,Lu Wang,Lionel M. Ni +4 more
- 08 Jul 2013
TL;DR: Pilot, a Channel State Information (CSI)-based DfP indoor localization system in WLAN is presented and it is shown that the Pilot system can greatly outperform the corresponding best RSS-based scheme in terms of anomaly detection and localization accuracy.
Narrowband Internet of Things: Evolutions, Technologies, and Open Issues
TL;DR: This paper surveys NB-IoT evolutions, technologies, and issues, spanning from performance analysis, design optimization, combination with other leading technologies, to implementation and application, to deliver a holistic understanding for the emerging wireless communication system.
218
Multiple Access MmWave Design for UAV-Aided 5G Communications
TL;DR: This article integrates mmWave communication with UAV-aided 5G ultra-dense networks, and design a novel link-adaptive constellation- division multiple access (CoDMA) technique that can successfully enable multiple-user access within a single beam without causing any intra-beam interference while efficiently mitigating interference from adjacent beams.
98
Combating Hidden and Exposed Terminal Problems in Wireless Networks
Lu Wang,Kaishun Wu,Mounir Hamdi +2 more
TL;DR: Experimental results show that FAST can effectively solve both the hidden and the exposed terminal problems, and improve the average throughput by up to 200% over CSMA in practical ad-hoc networks.
78
HJam: Attachment transmission in WLANs
Kaishun Wu,Haochao Li,Lu Wang,Youwen Yi,Yunhuai Liu,Dihu Chen,Xiaonan Luo,Qian Zhang,Lionel M. Ni +8 more
- 25 Mar 2012
TL;DR: This paper proposes a new communication model where the control frames can be "attacheda to the data transmission" and can improve the WLANs efficiency by up to 200 percent compared with the existing 802.11 family protocols.