M
Mohsen Guizani
Researcher at Qatar University
Publications - 1337
Citations - 48275
Mohsen Guizani is an academic researcher from Qatar University. The author has contributed to research in topics: Computer science & Cloud computing. The author has an hindex of 79, co-authored 1110 publications receiving 31282 citations. Previous affiliations of Mohsen Guizani include Jaypee Institute of Information Technology & University College for Women.
Papers
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Journal ArticleDOI
Mapping-Varied Spatial Modulation for Physical Layer Security: Transmission Strategy and Secrecy Rate
Yuli Yang,Mohsen Guizani +1 more
TL;DR: In this article, the authors proposed a mapping-varied spatial modulation (MVSPM) scheme, where the transmitter varies mapping patterns for the radiated information and the antenna information of spatial modulation, based on the instantaneous pattern of legitimate channel quality information that is unknown to eavesdroppers.
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On Next Generation CDMA Technologies: The REAL Approach for Perfect Orthogonal Code Generation
TL;DR: This paper addresses the issues on spreading code generation that is suitable for next-generation CDMA systems and concludes that implementation of an interference-free CDMA will not be possible unless using complementary codes, such as the POC codes.
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Cost-Efficient Service Function Chain Orchestration for Low-Latency Applications in NFV Networks
TL;DR: A heuristic, closed-loop feedback (CLF) algorithm to find the shortest path to map an SFC is proposed and a restricted Boltzmann machine and cross entropy are introduced to improve the performance of CLF.
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A Distributed Gateway Selection Algorithm for UAV Networks
TL;DR: Simulation results show that the faster the nodes move in the network, the more stable topology can be found, which is quite suitable for UAV applications.
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A Blockchain-based Self-tallying Voting Protocol in Decentralized IoT
TL;DR: A framework of the self-tallying voting system in decentralized IoT based on blockchain is introduced and it is proved that the proposed system satisfies all the security requirements, including fairness, dispute-freeness, and maximal ballot secrecy.