H-Index & Metrics Top Publications

H-Index & Metrics

Discipline name H-index Citations Publications World Ranking National Ranking
Electronics and Electrical Engineering H-index 51 Citations 10,893 287 World Ranking 1098 National Ranking 506

Research.com Recognitions

Awards & Achievements

2015 - IEEE Fellow For contributions to theory and practice of ultra-wideband communications

Overview

What is he best known for?

The fields of study he is best known for:

  • Computer network
  • Telecommunications
  • The Internet

Liuqing Yang mainly investigates Electronic engineering, Wireless, Computer network, Telecommunications and Communication channel. His biological study spans a wide range of topics, including Transmitter, Multipath propagation, Spread spectrum and Fading. His Wireless study incorporates themes from Transmission, Efficient energy use and Ultra-wideband.

His Computer network research is multidisciplinary, relying on both Relay, Distributed computing and Narrowband. His Telecommunications research is multidisciplinary, incorporating elements of Wireless sensor network and Flexibility. Liuqing Yang interconnects Covariance matrix, Noise and Discrete Fourier transform in the investigation of issues within Communication channel.

His most cited work include:

  • Ultra-wideband communications: an idea whose time has come (1150 citations)
  • D2D for Intelligent Transportation Systems: A Feasibility Study (259 citations)
  • Timing ultra-wideband signals with dirty templates (182 citations)

What are the main themes of his work throughout his whole career to date?

His primary areas of study are Electronic engineering, Communication channel, Computer network, Wireless and Relay. The study incorporates disciplines such as Transmission, Modulation, MIMO, Orthogonal frequency-division multiplexing and Transmitter in addition to Electronic engineering. Communication channel is the subject of his research, which falls under Telecommunications.

His Computer network research incorporates themes from Throughput, Distributed computing and Vehicular ad hoc network. The Throughput study combines topics in areas such as Network performance and Scheduling. In his work, Battery is strongly intertwined with Wireless sensor network, which is a subfield of Wireless.

He most often published in these fields:

  • Electronic engineering (39.19%)
  • Communication channel (22.09%)
  • Computer network (20.43%)

What were the highlights of his more recent work (between 2019-2021)?

  • Noma (2.38%)
  • Electronic engineering (39.19%)
  • Optimization problem (4.99%)

In recent papers he was focusing on the following fields of study:

His scientific interests lie mostly in Noma, Electronic engineering, Optimization problem, Real-time computing and Power control. His Electronic engineering study combines topics from a wide range of disciplines, such as Wireless, MIMO, Communication channel, Modulation and Subcarrier. His study on Channel state information is often connected to Node as part of broader study in Wireless.

His work on Mimo channel as part of general Communication channel study is frequently linked to Scale, bridging the gap between disciplines. His work deals with themes such as Intelligent transportation system, Transmitter power output, Throughput, Inertial measurement unit and Global Positioning System, which intersect with Real-time computing. His research in Throughput intersects with topics in Relay, Time division multiple access and Network packet.

Between 2019 and 2021, his most popular works were:

  • Sparse Vector Coding-Based Multi-Carrier NOMA for In-Home Health Networks (19 citations)
  • Playback of 5G and Beyond Measured MIMO Channels by an ANN-Based Modeling and Simulation Framework (7 citations)
  • Cooperative Jamming via Spectrum Sharing for Secure UAV Communications (7 citations)

In his most recent research, the most cited papers focused on:

  • Computer network
  • Telecommunications
  • The Internet

The scientist’s investigation covers issues in Electronic engineering, Noma, Communication channel, Wireless and Transceiver. His Electronic engineering study frequently draws connections between adjacent fields such as Joint. His study looks at the relationship between Noma and topics such as Power control, which overlap with Protocol, Wireless network, Wireless sensor network, Data collection and Distributed computing.

His Channel state information study in the realm of Communication channel interacts with subjects such as Scale. His Wireless study deals with Precoding intersecting with Interference. His work carried out in the field of Transceiver brings together such families of science as Mimo systems, Modulation, Spatial modulation, Subcarrier and Radio frequency.

This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.

Top Publications

Ultra-wideband communications: an idea whose time has come

Liuqing Yang;G.B. Giannakis.
IEEE Signal Processing Magazine (2004)

1526 Citations

Cooperative Diversity of Spectrum Sensing in Cognitive Radio Networks

Dongliang Duan;Liuqing Yang;Jose C. Principe.
wireless communications and networking conference (2009)

890 Citations

D2D for Intelligent Transportation Systems: A Feasibility Study

Xiang Cheng;Liuqing Yang;Xia Shen.
IEEE Transactions on Intelligent Transportation Systems (2015)

334 Citations

Optimal training for MIMO frequency-selective fading channels

Xiaoli Ma;Liuqing Yang;G.B. Giannakis.
IEEE Transactions on Wireless Communications (2005)

258 Citations

Intelligent transportation spaces: vehicles, traffic, communications, and beyond

Fengzhong Qu;Fei-Yue Wang;Liuqing Yang.
IEEE Communications Magazine (2010)

239 Citations

Optimal pilot waveform assisted modulation for ultrawideband communications

Liuqing Yang;G.B. Giannakis.
IEEE Transactions on Wireless Communications (2004)

231 Citations

Interference-aware graph based resource sharing for device-to-device communications underlaying cellular networks

Rongqing Zhang;Xiang Cheng;Liuqing Yang;Bingli Jiao.
wireless communications and networking conference (2013)

226 Citations

Timing ultra-wideband signals with dirty templates

Liuqing Yang;G.B. Giannakis.
IEEE Transactions on Communications (2005)

222 Citations

Where does AlphaGo go: from church-turing thesis to AlphaGo thesis and beyond

Fei-Yue Wang;Jun Jason Zhang;Xinhu Zheng;Xiao Wang.
IEEE/CAA Journal of Automatica Sinica (2016)

209 Citations

Analog space-time coding for multiantenna ultra-wideband transmissions

Liuqing Yang;G.B. Giannakis.
IEEE Transactions on Communications (2004)

208 Citations

Profile was last updated on December 6th, 2021.
Research.com Ranking is based on data retrieved from the Microsoft Academic Graph (MAG).
The ranking h-index is inferred from publications deemed to belong to the considered discipline.

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Top Scientists Citing Liuqing Yang

Miaowen Wen

Miaowen Wen

South China University of Technology

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Fei-Yue Wang

Fei-Yue Wang

Chinese Academy of Sciences

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Lajos Hanzo

University of Southampton

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Georgios B. Giannakis

Georgios B. Giannakis

University of Minnesota

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Bo Ai

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Beijing Jiaotong University

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Andreas F. Molisch

Andreas F. Molisch

University of Southern California

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Mohamed-Slim Alouini

Mohamed-Slim Alouini

King Abdullah University of Science and Technology

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Moe Z. Win

Moe Z. Win

MIT

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Xiang Cheng

Xiang Cheng

Peking University

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H. Vincent Poor

H. Vincent Poor

Princeton University

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Zhengyuan Xu

Zhengyuan Xu

University of Science and Technology of China

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Zhi Tian

Zhi Tian

George Mason University

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Shengli Zhou

Shengli Zhou

University of Connecticut

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Zhangdui Zhong

Zhangdui Zhong

Beijing Jiaotong University

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Ertugrul Basar

Ertugrul Basar

Koç University

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