Add to ORKGAbstract—Herein, we study the spectral coexistence of Geo-stationary (GEO) Fixed Satellite Services (FSS) downlink and Broadcasting Satellite Services (BSS) feeder links in the Ka-band (17.3 − 18.1 GHz) which is primarily allocated for BSS feeder links. Firstly, a novel cognitive spectrum exploitation framework is proposed in order to utilize the available band efficiently. Subsequently, based on the interference analysis carried out between these systems, two cognitive approaches, namely Carrier Allocation (CA) and Beamforming (BF), are investigated under the considered framework assuming the availability of an accu-rate Radio Environment Map (REM). The employed techniques allow the flexibility of using additional shared carriers for the F...
Broadband access by satellite in Ka band is currently constrained by spectrum availability. In this ...
peer reviewedThe usable satellite spectrum has become scarce due to continuously increasing demand f...
Broadband access by satellite in Ka-band will become constrained by spectrum availability. In this c...
Herein, we study the spectral coexistence of Geostationary (GEO) Fixed Satellite Services (FSS) down...
Abstract—In this paper, we consider the problem of resource allocation in the context of cognitive S...
Multibeam satellite networks in Ka band have been designed to accommodate the increasing traffic dem...
This paper addresses the cognitive Geostationary Orbit (GSO) satellite uplink where satellite termin...
Multibeam satellite networks in Ka band have been designed to accommodate the increasing traffic dem...
The lack of available unlicensed spectrum together with the increasing spectrum demand by multimedia...
Broadband access by satellite in Ka band will become constrained by spectrum availability. In this c...
The satellite communication data traffic is increasing dramatically over the coming years. High thro...
The satellite communication data traffic is increasing dramatically over the coming years. High thro...
Broadband access by satellite in Ka band is currently constrained by spectrum availability. In this ...
peer reviewedThe usable satellite spectrum has become scarce due to continuously increasing demand f...
Broadband access by satellite in Ka-band will become constrained by spectrum availability. In this c...
Herein, we study the spectral coexistence of Geostationary (GEO) Fixed Satellite Services (FSS) down...
Abstract—In this paper, we consider the problem of resource allocation in the context of cognitive S...
Multibeam satellite networks in Ka band have been designed to accommodate the increasing traffic dem...
This paper addresses the cognitive Geostationary Orbit (GSO) satellite uplink where satellite termin...
Multibeam satellite networks in Ka band have been designed to accommodate the increasing traffic dem...
The lack of available unlicensed spectrum together with the increasing spectrum demand by multimedia...
Broadband access by satellite in Ka band will become constrained by spectrum availability. In this c...
The satellite communication data traffic is increasing dramatically over the coming years. High thro...
The satellite communication data traffic is increasing dramatically over the coming years. High thro...
Broadband access by satellite in Ka band is currently constrained by spectrum availability. In this ...
peer reviewedThe usable satellite spectrum has become scarce due to continuously increasing demand f...
Broadband access by satellite in Ka-band will become constrained by spectrum availability. In this c...