Research Article
On SCTP Multihoming Performance in Native IPv6 UMTS–WLAN Environments
@INPROCEEDINGS{10.1109/TRIDENTCOM.2009.4976216, author={L\^{a}szl\^{o} Bokor and \^{A}rp\^{a}d Husz\^{a}k and G\^{a}bor Jeney}, title={On SCTP Multihoming Performance in Native IPv6 UMTS--WLAN Environments}, proceedings={5th International ICST Conference on Testbeds and Research Infrastructures for the Development of Networks and Communities}, publisher={IEEE}, proceedings_a={TRIDENTCOM}, year={2009}, month={5}, keywords={IPv6 SCTP UMTS WLAN heterogeneous environment multihoming performance evaluation testbed transport layer mobility vertical handover}, doi={10.1109/TRIDENTCOM.2009.4976216} }
- László Bokor
Árpád Huszák
Gábor Jeney
Year: 2009
On SCTP Multihoming Performance in Native IPv6 UMTS–WLAN Environments
TRIDENTCOM
IEEE
DOI: 10.1109/TRIDENTCOM.2009.4976216
Abstract
Multihoming is one of the most attractive features of SCTP (Stream Control Transmission Protocol) aiming to make this prosperous transport scheme competitive in mobile environments when the mobile hosts are equipped with multiple interfaces. The complementary characteristic of the 3G UMTS (Universal Mobile Telecommunications System) and WLAN (Wireless Local Area Network) architectures motivates operators to integrate these two successful technologies. Recently spreading wireless devices are increasingly provided with multiple networking interfaces such enabling end-users to access Internet services using e.g. the WLAN’s higher bandwidth wherever available, and connecting to the UMTS network in other cases. This paper investigates the performance of multihomed SCTP hosts through extensive experimental studies in such an integrated heterogeneous environment. In order to do this we designed and implemented a real native IPv6 UMTS–WLAN testbed equipped with novel IPv6-based mobile technologies, such providing ideal conditions for SCTP multihoming performance analysis. In this testbed architecture we analyzed numerous settings to measure the handover behavior of the protocol in terms of handover effectiveness, link changeover characteristics, throughput and transmission delay. As our results show, accurate SCTP parameter setup can significantly decrease the handover delay and eliminate the data transmission interrupts.