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Shurjeel Wyne
Researcher at COMSATS Institute of Information Technology
Publications - 62
Citations - 2482
Shurjeel Wyne is an academic researcher from COMSATS Institute of Information Technology. The author has contributed to research in topics: Fading & Communication channel. The author has an hindex of 24, co-authored 61 publications receiving 2029 citations. Previous affiliations of Shurjeel Wyne include Lund University.
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Quantum Machine Learning for 6G Communication Networks: State-of-the-Art and Vision for the Future
TL;DR: A novel QC-assisted and QML-based framework for 6G communication networks is proposed while articulating its challenges and potential enabling technologies at the network infrastructure, network edge, air interface, and user end.
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On mm-Wave Multipath Clustering and Channel Modeling
TL;DR: Cl clustering results for a double-directional 60 GHz MIMO channel model are presented and it is shown that the cluster angular characteristics are closely related to the room geometry and environment, making it infeasible to model the delay and angular domains independently.
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A Comprehensive Survey on Cooperative Relaying and Jamming Strategies for Physical Layer Security
TL;DR: A comprehensive survey of the recent works on cooperative relaying and jamming techniques for securing wireless transmissions against eavesdropping nodes, which attempt to intercept the transmissions.
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A Measurement-Based Statistical Model for Industrial Ultra-Wideband Channels
TL;DR: The results show that the energy arrives in clusters, and that the abundance of metallic scatterers present in the factory hall causes dense multipath scattering, and the number of multipath components required to capture a majority of the energy is quite large.
Proceedings ArticleDOI
Statistical analysis of the UWB channel in an industrial environment
TL;DR: In this paper, the authors present a statistical model for the ultra wideband (UWB) channel in an industrial environment, based on a set of measurements in a factory hall, and find that the abundance of metallic scatterers causes dense multipath scattering.