Title :
The peak-hopper: a new end-to-end retransmission timer for reliable unicast transport
Author :
Ekström, Hannes ; Ludwig, Reiner
Author_Institution :
Ericsson Res., Aachen, Germany
Abstract :
We analyze the RTO algorithm standardized for TCP and SCTP (V. Paxon et al., 2000) that is widely deployed in the Internet, referred to as the RFC2988-RTO in this paper. We briefly demonstrate three well-known problems of the RFC2988-RTO. We then develop a new RTO algorithm called the peak-hopper-RTO (PH-RTO) that eliminates the mentioned problems. Through extensive simulations in ns2, we evaluate the effectiveness of both RTO algorithms. The key advantage of the PH-RTO over the RFC2988-RTO is its predictability. Although the RFC2988-RTO often exhibits low loss detection times, it also exhibits frequent "RTO outliers" that can lead to exceptionally long loss detection times. The loss detection times of the PH-RTO are much more closely spread around the mean. Finally, our results show that the PH-RTO is much more robust to sudden delay spikes that are particularly common in wireless networks.
Keywords :
Internet; radio networks; telecommunication network reliability; transport protocols; Internet; RFC2988-RTO algorithm; SCTP; TCP; end-to-end retransmission timer; loss detection time; peak-hopper-RTO algorithm; reliable unicast transport; retransmission timeout value algorithm; transport control protocol; wireless network; Algorithm design and analysis; Feedback; Force control; Internet; Performance loss; Propagation losses; Protocols; Robustness; Timing; Unicast;
Conference_Titel :
INFOCOM 2004. Twenty-third AnnualJoint Conference of the IEEE Computer and Communications Societies
Print_ISBN :
0-7803-8355-9
DOI :
10.1109/INFCOM.2004.1354671
