A dynamical-network model with hierarchical controls for cognitive military satellite communications

A modeling framework is developed that enables analysis and design of cognitive radio technologies for military satellite communication networks. The main components of the model are: 1) a multi-tiered queueing network that captures data transmission within the network; 2) access and routing models...

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Bibliographic Details
Published in2017 IEEE Conference on Control Technology and Applications (CCTA) pp. 1805 - 1810
Main Authors Roy, Sandip, Doty, Kyle, Mengran Xue, Khanh Pham
Format Conference Proceeding
LanguageEnglish
Published IEEE 01.08.2017
Subjects
Analytical models
Cognitive radio
dynamical networks
hierarchical controls
Mathematical model
Military communication
Military satellites
queueing theory
Routing
satellite communications
Supervisory control
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Summary:A modeling framework is developed that enables analysis and design of cognitive radio technologies for military satellite communication networks. The main components of the model are: 1) a multi-tiered queueing network that captures data transmission within the network; 2) access and routing models for primary and cognitive users, abstracted as mixed supervisory and bottom-up controls. A complete set of governing equations for the model are presented, as a starting point for simulation and formal evaluation. Finally, a specific use case is developed, on comparing static and dynamic bandwidth allocation (supervisory control) schemes in the military satellite backbone.
DOI:10.1109/CCTA.2017.8062718