DTN LEO Satellite Communications through Ground Stations and GEO Relays

LEO satellites are characterized by intermittent connectivity with their ground stations. Contacts are short and separated by long intervals, which with urgent data can become a critical factor. To solve this problem, the use of GEO satellites as relay has recently been suggested. This solution is appealing, but has some limits, especially with polar orbits, as the link between the LEO satellite and the GEO relay is affected by long disruptions over polar regions. Moreover, the bandwidth available may be limited and difficult to fully exploit. In this paper, we show that GEO relays are complementary rather than alternative to ground stations, and that the enabling technology for their combined use is DTN (Delay-/Disruption- Tolerant Networking) architecture and related protocols, including CGR (Contact Graph Routing). To demonstrate this, a series of experiments carried out on a testbed running ION, the NASA implementation of the DTN protocols and CGR, is discussed in the paper.

[1]  H. Bischl,et al.  A multibeam antenna for data relays for the German communications satellite Heinrich-Hertz , 2010, Proceedings of the Fourth European Conference on Antennas and Propagation.

[2]  Stephen Farrell,et al.  Licklider Transmission Protocol - Motivation , 2008, RFC.

[3]  Igor Bisio,et al.  Combined Congestion Control and Link Selection Strategies for Delay Tolerant Interplanetary Networks , 2009, GLOBECOM 2009 - 2009 IEEE Global Telecommunications Conference.

[4]  Vinton G. Cerf,et al.  Delay-tolerant networking: an approach to interplanetary Internet , 2003, IEEE Commun. Mag..

[5]  Igor Bisio,et al.  Combined Congestion Control and Link Selection Strategies for Delay Tolerant Interplanetary Networks , 2009, GLOBECOM.

[6]  Chris Jackson,et al.  Experience with Delay-Tolerant Networking from Orbit , 2008, 2008 4th Advanced Satellite Mobile Systems.

[7]  Kevin Curran,et al.  Disruption Tolerant Networking , 2008, Comput. Inf. Sci..

[8]  M. Haslam,et al.  SB-SAT- Persistent data communication LEO spacecraft via the Inmarsat-4 GEO constellation , 2012, 2012 6th Advanced Satellite Multimedia Systems Conference (ASMS) and 12th Signal Processing for Space Communications Workshop (SPSC).

[9]  Scott Burleigh Interplanetary Overlay Network: An Implementation of the DTN Bundle Protocol , 2007, 2007 4th IEEE Consumer Communications and Networking Conference.

[10]  Scott C. Burleigh,et al.  Bundle Protocol Specification , 2007, RFC.

[11]  Stephen Farrell,et al.  DTN: an architectural retrospective , 2008, IEEE Journal on Selected Areas in Communications.

[12]  Anil K. Maini,et al.  Satellite Communications , 1996 .

[13]  Scott Burleigh Contact Graph Routing , 2010 .

[14]  Haitham S. Cruickshank,et al.  Delay- and Disruption-Tolerant Networking (DTN): An Alternative Solution for Future Satellite Networking Applications , 2011, Proceedings of the IEEE.

[15]  Vinton G. Cerf,et al.  Delay-Tolerant Networking Architecture , 2007, RFC.

[16]  Al Morton Performance Metrics for All , 2009, IEEE Internet Computing.

[17]  Stephen Farrell,et al.  Licklider Transmission Protocol - Specification , 2008, RFC.

[18]  Zoltán Katona GEO data relay for low earth orbit satellites , 2012, 2012 6th Advanced Satellite Multimedia Systems Conference (ASMS) and 12th Signal Processing for Space Communications Workshop (SPSC).

[19]  Carlo Caini,et al.  Application of Contact Graph Routing to LEO satellite DTN communications , 2012, 2012 IEEE International Conference on Communications (ICC).