Add to ORKGCurrently the use of Ka-band is the benchmark for high throughput satellite communications commercial application, while Q/V band is under scientific investigation through a European experimental campaign. The use of EHF, in particular Q/V-band and W-band, is one of the main methods to increase the system throughput, exploiting the large bandwidth availability. In a short-term scenario, these frequencies will be used in the feeder link, while Ka-band will be used in the user link to maintain user terminal backward compatibility. In a long-term scenario, “beyond Ka-band” frequencies could be used both in the user and feeder links. It is well known that the drawbacks of radio-waves propagation at these frequencies are the high impairments cau...
Terabit capacity and very high data rates are required for the near-future broadband satellite commu...
In future communication satellite systems the adoption of higher frequencies as Q/V-band (around 40 ...
The Q/V band technology demonstration mission on board the Alphasat satellite has been operational f...
Currently the use of Ka-band is the benchmark for high throughput satellite communications commercia...
The use of Ka-band is currently the benchmark for High Throughput Satellite (HTS) systems commercial...
The Alphasat Aldo Paraboni communication experimental campaign is based on a transparent Q/V band tr...
Broadband satellite communication systems, with their global access and broadcasting capabilities, a...
The upcoming migration of satellite services to higher bands, namely, the Ka‐ and Q/V‐bands, offers ...
Future satellite communication systems providing broadband access to Internet require high throughpu...
In 2013 the European Space Agency, in cooperation with Inmarsat, launched the Alphasat communication...
Terabit capacity and very high data rates are required for the near-future broadband satellite commu...
In future communication satellite systems the adoption of higher frequencies as Q/V-band (around 40 ...
The Q/V band technology demonstration mission on board the Alphasat satellite has been operational f...
Currently the use of Ka-band is the benchmark for high throughput satellite communications commercia...
The use of Ka-band is currently the benchmark for High Throughput Satellite (HTS) systems commercial...
The Alphasat Aldo Paraboni communication experimental campaign is based on a transparent Q/V band tr...
Broadband satellite communication systems, with their global access and broadcasting capabilities, a...
The upcoming migration of satellite services to higher bands, namely, the Ka‐ and Q/V‐bands, offers ...
Future satellite communication systems providing broadband access to Internet require high throughpu...
In 2013 the European Space Agency, in cooperation with Inmarsat, launched the Alphasat communication...
Terabit capacity and very high data rates are required for the near-future broadband satellite commu...
In future communication satellite systems the adoption of higher frequencies as Q/V-band (around 40 ...
The Q/V band technology demonstration mission on board the Alphasat satellite has been operational f...