B
Barry G. Evans
Researcher at University of Surrey
Publications - 497
Citations - 6599
Barry G. Evans is an academic researcher from University of Surrey. The author has contributed to research in topics: Communications satellite & Communication channel. The author has an hindex of 34, co-authored 495 publications receiving 6039 citations. Previous affiliations of Barry G. Evans include University of Essex.
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An integral equation solution to the scattering of electromagnetic radiation by dielectric spheroids and ellipsoids
TL;DR: In this article, a new approach to the scattering of electromagnetic radiation by dielectric scatterers and application of it to the case of scattering by homogeneous spheroidal and ellipsoidal raindrops is presented.
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Convergence of Satellite and Terrestrial Networks: A Comprehensive Survey
TL;DR: A comprehensive survey on the convergence of satellite and terrestrial networks, which summarizes related architectures of existing literature, classify the taxonomy of researches on satellite-terrestrial networks, and presents the performance evaluation works in different satellite- terrestrial networks.
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A terabit/second satellite system for European broadband access: a feasibility study
TL;DR: A feasibility study for a fixed broadband access High Throughput Satellite terabit/second system by considering appropriate state‐of‐the‐art communication technologies shows that the forward link is limited by noise rather than interference, whereas the return link is interference limited.
Microwave propagation in sand and dust storms
A.J. Ansari,Barry G. Evans +1 more
TL;DR: In this paper, the authors attempt to place bounds on the likely effects of sand and dust storms, particularly attenuation and depolarisation in the 3-37 GHz frequency range covering most of the existing and planned operational radio and satellite links.
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On the Gateway Diversity for High Throughput Broadband Satellite Systems
TL;DR: This paper addresses the Smart Gateway diversity scheme to be employed in future High Throughput Satellite Systems at Ka, Q/V bands or above and a new time switched architecture is compared with the more conventional frequency division system for the N-active scheme but retaining transparent satellite transponders.