SCPS
SCPS Publications
[Durst-Miller-Travis-1996 (doi) .]
Robert C. Durst, Gregory J. Miller, and Eric J. Travis
“TCP Extensions for Space Communications”,
MobiCom '96: Proceedings of the 2nd annual international conference on Mobile computing and networking, ACM Press, New York, NY, USA, November 1996 Page(s): 15 - 26
Abstract: “The space communication environment and mobile and wireless communication environments show many similarities when observed from the perspective of a transport protocol. Both types of environments exhibit loss caused by data corruption and link outage, in addition to congestion-related loss. The constraints imposed by the two environments are also similar—power, weight, and physical volume of equipment are scarce resources. Finally, it is not uncommon for communication channel data rates to be severely limited and highly asymmetric. We are working on solutions to these types of problems for space communication environments, and we believe that these solutions may be applicable to the mobile and wireless community. As part of our work, we have defined and implemented the Space Communications Protocol Standards-Transport Protocol (SCPS-TP), a set of extensions to TCP that address the problems that we have identified. The results of our performance tests, both in the laboratory and on actual satellites, indicate that the SCPS-TP extensions yield significant improvements in throughput over unmodified TCP on error-prone links. Additionally, the SCPS modifications significantly improve performance over links with highly asymmetric data rates.”
ResiliNets Keywords: delay-tolerance, SCPS, SCPS-TP, MITRE
Notes:
[Durst-Miller-Travis-1997 (doi) .]
Robert C. Durst, Gregory J. Miller, and Eric J. Travis
“TCP Extensions for Space Communications”,
Wireless Networks 3, Springer Netherlands, 1997 Page(s): 389 - 403
Abstract: “The space communication environment and mobile and wireless communication environments show many similarities when observed from the perspective of a transport protocol. Both types of environments exhibit loss caused by data corruption and link outage, in addition to congestion‐related loss. The constraints imposed by the two environments are also similar – power, weight, and physical volume of equipment are scarce resources. Finally, it is not uncommon for communication channel data rates to be severely limited and highly asymmetric. We are working on solutions to these types of problems for space communication environments, and we believe that these solutions may be applicable to the mobile and wireless community. As part of our work, we have defined and implemented the Space Communications Protocol Standards‐Transport Protocol (SCPS‐TP), a set of extensions to TCP that address the problems that we have identified. The results of our performance tests, both in the laboratory and on actual satellites, indicate that the SCPS‐TP extensions yield significant improvements in throughput over unmodified TCP on error‐prone links. Additionally, the SCPS modifications significantly improve performance over links with highly asymmetric data rates.”
ResiliNets Keywords: SCPS, SCPS-TP
Notes:
