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A New Congestion Control Mechanism of TCP With Inline Network Measurement
White Paper By using information of available bandwidth of a network path between sender and receiver hosts, it constructs quite a different congestion control mechanism from the traditional TCP... [15 Jan 2008]
Available Bandwidth Measurement Via TCP Connection
White Paper ImTCP is based on Reno TCP, with a modification to the sender program only. The ImTCP sender adjusts the transmission intervals of data packets, then estimates available... [15 Jan 2008]
Performance Evaluation of Westwood+ TCP Congestion Control
White Paper Westwood+ TCP is a sender-side only modification of the classic Tahoe/Reno TCP that has been recently proposed to improve fairness and efficiency of... [15 Jan 2008]
TCP Westwood and Easy RED to Improve Fairness in High-Speed Networks
White Paper TCP Westwood (TCPW) is a sender-side only modification of TCP Reno congestion control, which exploits end-to-end bandwidth estimation to properly set the values of... [15 Jan 2008]
TCP Westwood: End-to-End Congestion Control for Wired/Wireless Networks
White Paper TCP Westwood (TCPW) is a sender-side modification of the TCP congestion window algorithm that improves upon the performance of TCP Reno in wired as well... [15 Jan 2008]
Improving TCP Performance Over 802.11 WLAN With Radio Network Feedback
White Paper The standard TCP Reno congestion control mechanism is modified to accommodate this effect. This is achieved by introducing a wireless enhancement proxy (WENP) at layer 3 in the base station that monitors... [27 Dec 2007]
TCP Westwood: Bandwidth Estimation for Enhanced Transport Over Wireless Links
White Paper TCP Westwood (TCPW) is a sender-side modification of the TCP congestion window algorithm that improves upon the performance of TCP Reno in wired as well... [06 Dec 2007]
End-to-End Bandwidth Estimation in TCP to Improve Wireless Link Utilization
White Paper TCP Westwood (TCPW) is a sender-side only modification of TCP Reno congestion control that exploits an end-to-end bandwidth estimation mechanism to set the values of... [06 Dec 2007]
Energy Consumption of TCP Reno, NewReno, and SACK in Multi-Hop Wireless Networks
White Paper This paper compares the energy consumption behavior of three versions of TCP - Reno, Newreno, and SACK. The results indicate that, in most cases, using total energy consumed as the metric, SACK... [06 Dec 2007]
A Comparative Analysis of TCP Tahoe, Reno, New-Reno, SACK and Vegas
White Paper The purpose of this paper is to analyze and compare the different congestion control and avoidance mechanisms which have been proposed for TCP/IP protocols, namely: Tahoe, Reno,... [06 Dec 2007]
TCP Startup Performance in Large Bandwidth Delay Networks
White Paper This paper evaluates the performance of TCP Reno/Newreno, Vegas and Hoe's modification in large bandwidth delay networks. By adapting to network conditions during the startup phase, a... [05 Dec 2007]
