Analysis of the increase and decrease algorithms for congestion avoidance in computer networks
Computer Networks and ISDN Systems
Congestion control in computer networks
Congestion control in computer networks
Random early detection gateways for congestion avoidance
IEEE/ACM Transactions on Networking (TON)
TCP Vegas: new techniques for congestion detection and avoidance
SIGCOMM '94 Proceedings of the conference on Communications architectures, protocols and applications
A Survey of Energy Efficient Network Protocols for Wireless Networks
Wireless Networks
TCP westwood: end-to-end congestion control for wired/wireless networks
Wireless Networks
TCP-Real: receiver-oriented congestion control
Computer Networks: The International Journal of Computer and Telecommunications Networking
Effectiveness of Loss Labeling in Improving TCP Performance in Wired/Wireless Networks
ICNP '02 Proceedings of the 10th IEEE International Conference on Network Protocols
Discriminating Congestion Losses from Wireless Losses using Inter-Arrival Times at the Receiver
ASSET '99 Proceedings of the 1999 IEEE Symposium on Application - Specific Systems and Software Engineering and Technology
Beyond AIMD: Explicit Fair-share Calculation
ISCC '03 Proceedings of the Eighth IEEE International Symposium on Computers and Communications
TCP-probing: towards an error control schema with energy and throughput performance gains
ICNP '00 Proceedings of the 2000 International Conference on Network Protocols
Ten fallacies and pitfalls on end-to-end available bandwidth estimation
Proceedings of the 4th ACM SIGCOMM conference on Internet measurement
Exploiting the adaptive properties of a probing device for TCP in heterogenous networks
Computer Communications
TCP-Jersey for wireless IP communications
IEEE Journal on Selected Areas in Communications
TCP Vegas: end to end congestion avoidance on a global Internet
IEEE Journal on Selected Areas in Communications
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In this paper, we depart from TCP-Probing (Tsaoussidis and Badr, 2000) and propose an experimental transport protocol that achieves energy and throughput performance gains in mixed wired and wireless environments. Our approach decouples error recovery from contention estimation and focuses on the way these two mechanisms can (i) feed the probing decision process and (ii) implement the protocol strategy by shaping traffic, according to detected conditions. We use a validation mechanism that uncovers previous possibly wrong estimations. Our analysis matches well our simulation results that are very promising.