M
Marwan Hadri Azmi
Researcher at Universiti Teknologi Malaysia
Publications - 54
Citations - 885
Marwan Hadri Azmi is an academic researcher from Universiti Teknologi Malaysia. The author has contributed to research in topics: Low-density parity-check code & Path loss. The author has an hindex of 14, co-authored 50 publications receiving 558 citations. Previous affiliations of Marwan Hadri Azmi include University of New South Wales & McGill University.
Papers
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Real Measurement Study for Rain Rate and Rain Attenuation Conducted Over 26 GHz Microwave 5G Link System in Malaysia
TL;DR: The statistics for the worst month in Malaysia is lower than what was predicted by the ITU model, and the average percentage of error calculated between the measurements and predicted results for the rain rate and rain attenuation were 143% and 159%, respectively.
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Key Challenges, Drivers and Solutions for Mobility Management in 5G Networks: A Survey
Ibraheem Shayea,Mustafa Ergen,Marwan Hadri Azmi,Sultan Aldirmaz Colak,Rosdiadee Nordin,Yousef Ibrahim Daradkeh +5 more
TL;DR: The work examines key factors that will significantly contribute to the increase of mobility issues and their determinants and the innovative, advanced, efficient, and smart handover techniques that have been introduced in 5G networks are discussed.
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Statistical Modelling and Characterization of Experimental mm-Wave Indoor Channels for Future 5G Wireless Communication Networks.
Ahmed M. Al-Samman,Tharek Abd Rahman,Marwan Hadri Azmi,Mohammad Nour Hindia,Imdad Khan,Imdad Khan,Effariza Hanafi +6 more
TL;DR: This paper develops a new path-loss model to account for the frequency attenuation with distance, which is term the Frequency attenuation (FA) path- loss model and introduce a frequency-dependent attenuation factor.
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Network Coded LDPC Code Design for a Multi-Source Relaying System
TL;DR: The main contribution of this work is the development of network coded multi-edge type LDPC (NCMET-LDPC) code design, which achieves better error performance than that of LDPC codes designed for the system without NC.
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Indoor corridor wideband radio propagation measurements and channel models for 5G millimeter wave wireless communications at 19 GHz, 28 GHz, and 38 GHz Bands
TL;DR: The results indicated that the channel propagation for 5G using high directional antenna should be used in the beamforming technique to receive the signal and collect all multipath components from different angles in a particular mobile location.