Jianhua Ge spends much of his time researching Relay, Computer network, Electronic engineering, Fading and Signal-to-noise ratio. His work carried out in the field of Relay brings together such families of science as Mathematical optimization, Spectral efficiency, Base station and Topology. His studies in Base station integrate themes in fields like Upper and lower bounds and Maximal-ratio combining.
In general Computer network, his work in Telecommunications link and Node is often linked to Broadcast encryption linking many areas of study. His Electronic engineering study combines topics in areas such as Communication channel and Orthogonal frequency-division multiplexing. His work deals with themes such as Wireless and Algorithm, which intersect with Fading.
His primary areas of study are Relay, Communication channel, Fading, Computer network and Electronic engineering. His Relay study combines topics from a wide range of disciplines, such as Wireless network, Mathematical optimization and Topology. His Communication channel research is multidisciplinary, incorporating perspectives in Algorithm and Antenna.
His biological study spans a wide range of topics, including Transmitter, Spectral efficiency and Telecommunications link. His Computer network research integrates issues from Wireless and Cognitive radio. His Electronic engineering study incorporates themes from Energy, Detector and Coding gain.
Jianhua Ge mostly deals with Relay, Communication channel, Fading, Computer network and Topology. The study incorporates disciplines such as Noma, Base station, Node, Electronic engineering and Antenna in addition to Relay. His Communication channel research includes elements of Transmitter and Algorithm.
His Fading research incorporates themes from Kalman filter, Signal-to-noise ratio, Telecommunications link and Spectral efficiency. Jianhua Ge has researched Computer network in several fields, including Wireless, Wireless network, Physical layer and Relay channel. Within one scientific family, he focuses on topics pertaining to Signal-to-noise ratio under Topology, and may sometimes address concerns connected to System parameters.
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Performance Analysis of Nonorthogonal Multiple Access for Relaying Networks Over Nakagami- $m$ Fading Channels
Jinjin Men;Jianhua Ge;Chensi Zhang.
IEEE Transactions on Vehicular Technology (2017)
Non-Orthogonal Multiple Access for Multiple-Antenna Relaying Networks
Jinjin Men;Jianhua Ge.
IEEE Communications Letters (2015)
On the synchronization techniques for wireless OFDM systems
Bo Ai;Zhi-xing Yang;Chang-yong Pan;Jian-hua Ge.
IEEE Transactions on Broadcasting (2006)
Cooperative Secure Beamforming for AF Relay Networks With Multiple Eavesdroppers
Ye Yang;Qiang Li;Wing-Kin Ma;Jianhua Ge.
IEEE Signal Processing Letters (2013)
Asymptotic Analysis of Cooperative Diversity Systems With Relay Selection in a Spectrum-Sharing Scenario
Haiyang Ding;Jianhua Ge;Daniel Benevides da Costa;Zhuoqin Jiang.
IEEE Transactions on Vehicular Technology (2011)
Peak-to-Average Power Ratio Reduction of OFDM Signals With Nonlinear Companding Scheme
Jun Hou;Jianhua Ge;Dewei Zhai;Jing Li.
IEEE Transactions on Broadcasting (2010)
An ID-based broadcast encryption scheme for key distribution
Xinjun Du;Ying Wang;Jianhua Ge;Yumin Wang.
IEEE Transactions on Broadcasting (2005)
Robust Cooperative Beamforming and Artificial Noise Design for Physical-Layer Secrecy in AF Multi-Antenna Multi-Relay Networks
Qiang Li;Ye Yang;Wing-Kin Ma;Meilu Lin.
IEEE Transactions on Signal Processing (2015)
Peak-to-Average Power Ratio Reduction of OFDM Signals Using PTS Scheme With Low Computational Complexity
Jun Hou;Jianhua Ge;Jing Li.
IEEE Transactions on Broadcasting (2011)
Performance analysis of non-orthogonal multiple access in downlink cooperative network
Jinjin Men;Jianhua Ge.
Iet Communications (2015)
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