Title :
Survivable space networks: the physical layer
Author :
Boyd, R.W. ; Adams, S.L. ; Spellman, M.I. ; Lucas, L.V.
Abstract :
The authors address the physical layer of a survivable communication network built around a space segment. The physical layer consists of satellites and ground stations, as well as the cross and up/down links between them. The proliferated-network approach to survivability is considered. Survivability is obtained by adapting to losses rather than by preventing them. It is noted that while power and cost constraints prohibit extensive electronic communication countermeasures on individual links, judicious choices of modulation, coding and antenna patterns provide some level of protection from less determined interferers. Issues of antenna selection, signal processing, and physical-connection activation are examined. It is concluded that a network of proliferated, low-earth orbit satellites can provide a viable approach to realizing robust, cost-effective communications.<>
Keywords :
antenna radiation patterns; electronic countermeasures; encoding; interference suppression; modulation; satellite relay systems; signal processing; telecommunication networks; antenna patterns; antenna selection; coding; electronic communication countermeasures; ground stations; interference suppression; links; low-earth orbit satellites; modulation; physical layer; physical-connection activation; signal processing; space segment; survivability; survivable communication network; Artificial satellites; Communication networks; Costs; Electronic countermeasures; Interference constraints; Modulation coding; Physical layer; Protection; Satellite ground stations; Signal processing;
Conference_Titel :
Military Communications Conference, 1988. MILCOM 88, Conference record. 21st Century Military Communications - What's Possible? 1988 IEEE
Conference_Location :
San Diego, CA, USA
DOI :
10.1109/MILCOM.1988.13441
