SIGCOMM '88 Symposium proceedings on Communications architectures and protocols
Internetworking with TCP/IP (2nd ed.), vol. I
Internetworking with TCP/IP (2nd ed.), vol. I
TCP/IP illustrated (vol. 1): the protocols
TCP/IP illustrated (vol. 1): the protocols
TCP Vegas: new techniques for congestion detection and avoidance
SIGCOMM '94 Proceedings of the conference on Communications architectures, protocols and applications
Dynamics of TCP traffic over ATM networks
SIGCOMM '94 Proceedings of the conference on Communications architectures, protocols and applications
Analysis of techniques to improve protocol processing latency
Conference proceedings on Applications, technologies, architectures, and protocols for computer communications
Improving the start-up behavior of a congestion control scheme for TCP
Conference proceedings on Applications, technologies, architectures, and protocols for computer communications
Forward acknowledgement: refining TCP congestion control
Conference proceedings on Applications, technologies, architectures, and protocols for computer communications
The performance of TCP/IP for networks with high bandwidth-delay products and random loss
IEEE/ACM Transactions on Networking (TON)
A comparison of mechanisms for improving TCP performance over wireless links
IEEE/ACM Transactions on Networking (TON)
TCP for high performance in hybrid fiber coaxial broad-band access networks
IEEE/ACM Transactions on Networking (TON)
A Feedback Based Scheme for Improving TCP Performance in Ad-Hoc Wireless Networks
ICDCS '98 Proceedings of the The 18th International Conference on Distributed Computing Systems
I-TCP: indirect TCP for mobile hosts
ICDCS '95 Proceedings of the 15th International Conference on Distributed Computing Systems
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TCP's congestion control handless packet loss due to congestion in the network. Over wireless links, packet loss may also be due to signal fading. Wireless LAN traffic under High Bit Error rate (BER) suffers great throughput degradation due to the current congestion control mechanism. Our algorithm allows TCP to send as much data as possible within a threshold that optimizes throughput while recovering from a high BER on a wireless LAN link. We will refer to the error recovery mechanism as Aggressive Error Recovery (AER) and call the new TCP version as TCP Noor.