J
John D. Kanellopoulos
Researcher at National Technical University of Athens
Publications - 187
Citations - 1657
John D. Kanellopoulos is an academic researcher from National Technical University of Athens. The author has contributed to research in topics: Attenuation & Fading. The author has an hindex of 21, co-authored 187 publications receiving 1608 citations. Previous affiliations of John D. Kanellopoulos include National and Kapodistrian University of Athens & Imperial College London.
Papers
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Long-term rain attenuation probability and site diversity gain prediction formulas
Athanasios D. Panagopoulos,Pantelis-Daniel Arapoglou,John D. Kanellopoulos,Panayotis G. Cottis +3 more
TL;DR: In this article, simple models for long-term induced rain attenuation on a slant path and site diversity gain are presented, which are verified by numerous tests against the ITU-R databank and other data from the literature.
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On the rain attenuation dynamics: spatial‐temporal analysis of rainfall rate and fade duration statistics
TL;DR: A spatial–temporal analysis is employed in order to evaluate the rain attenuation power spectrum of a terrestrial/satellite path and the agreement between the predicted results and the experimental data has been found to be quite encouraging.
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Multidimensional Rain Attenuation Stochastic Dynamic Modeling: Application to Earth–Space Diversity Systems
TL;DR: In this paper, a stochastic dynamic model for the induced rain attenuation on multiple radio links is presented, which is considered as a generalization of the well-known and well-accepted Maseng-Bakken model in $n$ -dimensions.
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Calculation of the Dynamic Input Parameter for a Stochastic Model Simulating Rain Attenuation: A Novel Mathematical Approach
TL;DR: In this article, the authors demonstrate a mathematical algorithm that gives the optimum value for the dynamic parameter so that the Maseng-Bakken model approximates simultaneously both second-order and hitting time statistics, with the latter being quite similar to Fade/Interfade durations.
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Performance of N-branch receive diversity combining in correlated lognormal channels
TL;DR: Novel exact and compact expressions are proposed for the outage probability of N-branch maximal ratio combining (MRC), equal gain combining (EGC) and selection combining (SC) under correlated non-identically distributed lognormal channels.