Analysis of the increase and decrease algorithms for congestion avoidance in computer networks
Computer Networks and ISDN Systems
Promoting the use of end-to-end congestion control in the Internet
IEEE/ACM Transactions on Networking (TON)
Improving TCP performance over mobile networks
ACM Computing Surveys (CSUR)
TCP westwood: end-to-end congestion control for wired/wireless networks
Wireless Networks
Ensuring fairness among ECN and non-ECN TCP over the internet
International Journal of Network Management
Uncooperative congestion control
Proceedings of the joint international conference on Measurement and modeling of computer systems
Reno Friendly TCP Westwood based on Router Buffer Estimation
ICAS-ICNS '05 Proceedings of the Joint International Conference on Autonomic and Autonomous Systems and International Conference on Networking and Services
Cross-layer protocol design for real-time multimedia applications over 802.11 b networks
ICME '03 Proceedings of the 2003 International Conference on Multimedia and Expo - Volume 1
Efficiency Study of TCP Protocols in InfrastructuredWireless Networks
ICNS '06 Proceedings of the International conference on Networking and Services
IFTP-W: a TCP-friendly protocol for multimedia applications over wireless networks
Proceedings of the 43rd annual Southeast regional conference - Volume 2
Performance evaluation of TCP connections in ideal and non-ideal network environments
Computer Communications
TCP Veno: TCP enhancement for transmission over wireless access networks
IEEE Journal on Selected Areas in Communications
TCP-Jersey for wireless IP communications
IEEE Journal on Selected Areas in Communications
JTCP: jitter-based TCP for heterogeneous wireless networks
IEEE Journal on Selected Areas in Communications
A survey on TCP-friendly congestion control
IEEE Network: The Magazine of Global Internetworking
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The growing need for Internet friendly streaming protocols prompted us to develop IFTP (Internet Friendly Transport Protocol). IFTP is a protocol with an inherent rate-based flow control mechanism designed to emulate TCP's window-based flow control mechanism. In this paper, we present two proposals to improve the performance of IFTP in networks with wireless links. The first is IFTP-W, which specifies an error-sensitive section. Bit errors not occurring in this section are ignored. The second is IFTPV, which distinguishes between losses due to congestion and those due to the wireless link. In this paper, we present the performance of IFTP-W with varying error-sensitive section lengths on networks with varying link qualities. We also analyze the performance of IFTPV in extensive scenarios with various network conditions. The results show that both proposals maintain the TCP-friendliness and fairness properties, but perform better than IFTP on wireless networks.