@inproceedings{8267c291cdb540178fdbff0b9a11d95a,
title = "Concurrent multipath transfer using SCTP multihoming over heterogeneous network paths",
abstract = "The number of multi-homed hosts with multiple network interfaces has been increasing due to cheaper network interface devices and network diversification. Concurrent Multipath Transfer (CMT) using SCTP multihoming is a mechanism that simultaneously transmits data via multiple end-to-end paths compatible with today's network environment. Present studies on CMT have assumed that each path uses a homogeneous network. In this work, CMT performance was examined when each path of a multi-homed host used a heterogeneous network. The performance of CMT was found to decline due to the different bandwidths of the paths. Existing receive buffer blocking was demonstrated through the use of modeling with a time-line diagram. To prevent degradation in CMT performance, a dynamic CMT enable algorithm was proposed to transmit data through only one path when CMT performance is low.",
keywords = "Concurrent multipath transfer, Load balancing, Multihoming, SCTP, Transport layer",
author = "Taehun Kim and Jongwook Lee and Eom, \{Young Ik\}",
year = "2010",
language = "English",
isbn = "9781424474530",
series = "ICCAS 2010 - International Conference on Control, Automation and Systems",
pages = "1598--1602",
booktitle = "ICCAS 2010 - International Conference on Control, Automation and Systems",
note = "International Conference on Control, Automation and Systems, ICCAS 2010 ; Conference date: 27-10-2010 Through 30-10-2010",
}