Title :
TCP´s protocol radius: the distance where timers prevent communication
Author :
Wood, Lloyd ; Peoples, Cathryn ; Parr, Gerard ; Scotney, Bryan ; Moore, Adrian
Author_Institution :
Cisco Syst., Feltham
Abstract :
We examine how the design of the Transmission Control Protocol (TCP) implicitly presumes a limited range of path delays and distances between communicating endpoints. We show that TCP is less suited to larger delays due to the interaction of various timers present in TCP implementations that limit performance and, eventually, the ability to communicate at all as distances increase. The resulting performance and protocol radius metrics that we establish by simulation indicate how the TCP protocol performs with increasing distance radius between two communicating nodes, and show the boundaries where the protocol undergoes visible performance changes. This allows us to assess the suitability of TCP for long-delay communication, including for deep-space links.
Keywords :
space communication links; transport protocols; TCP protocol radius; communicating endpoints; deep-space links; long-delay communication; timers interaction; transmission control protocol; Access protocols; Codecs; Communication system control; Decoding; Degradation; Delay effects; Disruption tolerant networking; Dynamic range; Media Access Protocol; Signal design; DTN; Delay Tolerant Networking; TCP; Transmission Control Protocol;
Conference_Titel :
Satellite and Space Communications, 2007. IWSSC '07. International Workshop on
Conference_Location :
Salzburg
Print_ISBN :
978-1-4244-0938-9
Electronic_ISBN :
978-1-4244-0939-6
DOI :
10.1109/IWSSC.2007.4409409
