Adaptive window size to reduce the influence of heterogeneous mobility on TCP performance

The proliferation of wireless access technologies and the growth of demand for mobile services pose the need for seamless mobility across heterogeneous networks. Moreover, the widespread use of the TCP/IP protocol stack clearly reinforces the need to enhance its performance in such scenarios. In this paper we present an experimental evaluation of the influence of the so called heterogeneous (vertical) mobility on the behavior TCP protocol, and we propose a cross-layer solution to reduce this impact in future mobile environments. The described solution is based on the dynamic adaptation of the window size for a TCP connection, based on the related mobility conditions. We have evaluated this solution using the BIB3R testbed, which emulates the inter-working between commercial wireless technologies (e.g., UMTS, Wi-Fi, WiMAX, etc). The results showed that by adjusting the window size before the vertical handover process, TCP connections can reduce the adaptation time between 30 and 40 percent depending on the mobility scenario (heterogeneous links).

[1]  Carmelita Görg,et al.  Experimental Evaluation of Load Balancing for Mobile Internet Real-Time Communications , 2003 .

[2]  H. Soliman,et al.  Hierarchical mobile IPv6 mobility management , 2005 .

[3]  Rajeev Koodli,et al.  Fast Handovers for Mobile IPv6 , 2001, RFC.

[4]  Paul D. Amer,et al.  On making SCTP robust to spurious retransmissions , 2004, CCRV.

[5]  Deepak Bansal,et al.  Dynamic behavior of slowly-responsive congestion control algorithms , 2001, SIGCOMM 2001.

[6]  David N. Cottingham,et al.  Is Latency the Real Enemy in Next Generation Networks ? , .

[7]  Rui L. Aguiar,et al.  An IP-based QoS architecture for 4G operator scenarios , 2003, IEEE Wirel. Commun..

[8]  Diogo Gomes,et al.  Field evaluation of a 4G “True-IP” network , 2004 .

[9]  Claude Castelluccia,et al.  Hierarchical Mobile IPv6 Mobility Management (HMIPv6) , 2005, RFC.

[10]  Ralf Schmitz,et al.  Mobile Networks Experimental evaluation of a handover optimization solution for multimedia applications in a mobile IPv6 network , 2005, Eur. Trans. Telecommun..

[11]  Andrei V. Gurtov,et al.  Effect of vertical handovers on performance of TCP-friendly rate control , 2004, MOCO.

[12]  Charles E. Perkins,et al.  Mobility support in IPv6 , 1996, MobiCom '96.

[13]  Jon Crowcroft,et al.  Performance issues with vertical handovers - experiences from GPRS cellular and WLAN hot-spots integration , 2004, Second IEEE Annual Conference on Pervasive Computing and Communications, 2004. Proceedings of the.

[14]  Sahin Albayrak,et al.  Testbed for mobile network operator scenarios , 2006, 2nd International Conference on Testbeds and Research Infrastructures for the Development of Networks and Communities, 2006. TRIDENTCOM 2006..

[15]  Frank Stajano,et al.  Autonomic system for mobility support in 4G networks , 2005, IEEE Journal on Selected Areas in Communications.

[16]  Vern Paxson,et al.  TCP Congestion Control , 1999, RFC.