This paper addresses the cognitive Geostationary Orbit (GSO) satellite uplink where satellite terminals reuse frequency bands of Fixed-Service (FS) terrestrial microwave links which are the incumbent users in the Ka 27.5-29.5 GHz band. In the scenario considered herein, the transmitted power of the cognitive satellite user has to ensure that the interference impact on potentially present FS links does not exceed the regulatory interference limitations. In order to satisfy the interference constraint and assuming the existence of a complete and reliable FS database, this paper proposes a Joint Power and Carrier Allocation (JPCA) strategy to enable the cognitive uplink access to GSO Fixed Satellite Service (FSS) terminals. The proposed approa...
peer reviewedThis paper investigates the performance limits of cognitive uplink Fixed Satellite Serv...
Deploying high throughput satellite systems in Ka band to accommodate the ever increasing demand for...
This thesis addresses the problem of resource allocation for cognitive satellite communications.In a...
peer reviewedThis paper addresses the cognitive Geostationary Orbit (GSO) satellite uplink where sat...
peer reviewedThe lack of available unlicensed spectrum together with the increasing spectrum demand ...
peer reviewedIn this paper, we consider the problem of resource allocation in the context of cogniti...
peer reviewedIn this paper, we consider the cognitive satellite uplink where satellite terminals reu...
peer reviewedMultibeam satellite networks in Ka band have been designed to accommodate the increasin...
In this paper, we consider the cognitive satellite uplink where satellite terminals reuse frequency ...
open7siMultibeam satellite networks in Ka band have been designed to accommodate the increasing traf...
peer reviewedThe usable satellite spectrum has become scarce due to continuously increasing demand f...
Herein, we study the spectral coexistence of Geostationary (GEO) Fixed Satellite Services (FSS) down...
peer reviewedThe satellite communication data traffic is increasing dramatically over the coming yea...
peer reviewedThis paper investigates the performance limits of cognitive uplink Fixed Satellite Serv...
Deploying high throughput satellite systems in Ka band to accommodate the ever increasing demand for...
This thesis addresses the problem of resource allocation for cognitive satellite communications.In a...
peer reviewedThis paper addresses the cognitive Geostationary Orbit (GSO) satellite uplink where sat...
peer reviewedThe lack of available unlicensed spectrum together with the increasing spectrum demand ...
peer reviewedIn this paper, we consider the problem of resource allocation in the context of cogniti...
peer reviewedIn this paper, we consider the cognitive satellite uplink where satellite terminals reu...
peer reviewedMultibeam satellite networks in Ka band have been designed to accommodate the increasin...
In this paper, we consider the cognitive satellite uplink where satellite terminals reuse frequency ...
open7siMultibeam satellite networks in Ka band have been designed to accommodate the increasing traf...
peer reviewedThe usable satellite spectrum has become scarce due to continuously increasing demand f...
Herein, we study the spectral coexistence of Geostationary (GEO) Fixed Satellite Services (FSS) down...
peer reviewedThe satellite communication data traffic is increasing dramatically over the coming yea...
peer reviewedThis paper investigates the performance limits of cognitive uplink Fixed Satellite Serv...
Deploying high throughput satellite systems in Ka band to accommodate the ever increasing demand for...
This thesis addresses the problem of resource allocation for cognitive satellite communications.In a...