Title :
Gateway Switching in Q/V Band Satellite Feeder Links
Author :
Gharanjik, Ahmad ; Rao, B.S.M.R. ; Arapoglou, P.-D. ; Ottersten, Bjorn
Author_Institution :
Interdiscipl. Centre for Security, Reliability & Trust (SnT), Univ. of Luxembourg, Luxembourg, Luxembourg
Abstract :
A main challenge towards realizing the next generation Terabit/s broadband satellite communications (SatCom) is the limited spectrum available in the Ka band. An attractive solution is to move the feeder link to the higher Q/V band, where more spectrum is available. When utilizing the Q/V band, due to heavy rain attenuation, gateway diversity is considered a necessity to ensure the required feeder link availability. Although receive site diversity has been studied in the past for SatCom, there is much less maturity in terms of transmit diversity techniques. In this paper, a modified switch and stay combining scheme is proposed for a Q/V band feeder link, but its performance is also evaluated over an end-to-end satellite link. The proposed scheme is pragmatic and has close to optimal performance with notably lower complexity.
Keywords :
diversity reception; satellite links; telecommunication switching; Q/V band satellite feeder links; SatCom; end-to-end satellite link; gateway diversity; gateway switching; heavy rain attenuation; next generation broadband satellite communications; switch and stay combining method; transmit diversity technique; Attenuation; Diversity reception; Logic gates; Rain; Satellites; Signal to noise ratio; Switches; Feeder Link; Gateway Switching; Q/V Band; Satellite Communication; Switch and Stay Combining;
Journal_Title :
Communications Letters, IEEE
DOI :
10.1109/LCOMM.2013.052413.130632
