1,260 research outputs found
THE ANALYSIS OF VARIOUS TCP SUB-VERSIONS AND MECHANISM FOR CONGESTION AVOIDENCE
TCP, the most widely used protocol on Internet, has a major problem in that its congestion control does not allow flows to obtain full bandwidth on fast-long distance links. A Performance analysis of TCP-controlled long file transfers in a WLAN in infrastructure mode also with Comparison and Analysis of Congestion Window for HS-TCP, Full-TCP and TCP-Linux in Long Term Evolution System Model is available in the literature with one of the main assumptions being equal window size for all TCP connections. In this paper, we extend the analysis to TCP-controlled long file uploads and downloads with different TCP windows. Our approach is based on the semiMarkov process considered in [1] and [2], but with arbitrary window sizes. We present simulation results to show the accuracy of the analytical model. KEYWORDS:-WLAN, ACCESS POINTS
QoS evaluation of different TCPs congestion control algorithm using NS2
The success of the current Internet relies to a large
extent on cooperation between the users and network.
The network signals its current state to the users by
marking or dropping packets. The user then strives to
maximize the sending rate without causing network
congestion. To achieve this, the users implement a flow
control algorithm that controls the rate at which data
packets are sent into the Internet. More specifically, the
Transmission Control Protocol (TCP) is used by the
users to adjust the sending rate in response to changing
network conditions. In this paper, we focus on the
degree of fairness provided to TCP connections by
comparing two packet-scheduling algorithms at the
router. The first one is FIFO (First In First Out, or
Drop-Tail), which is widely used in the current Internet
routers because of its simplicity. The second is RED
(Random Early Detection), which drops incoming
packets at a certain probability
A survey of performance enhancement of transmission control protocol (TCP) in wireless ad hoc networks
This Article is provided by the Brunel Open Access Publishing Fund - Copyright @ 2011 Springer OpenTransmission control protocol (TCP), which provides reliable end-to-end data delivery, performs well in traditional wired network environments, while in wireless ad hoc networks, it does not perform well. Compared to wired networks, wireless ad hoc networks have some specific characteristics such as node mobility and a shared medium. Owing to these specific characteristics of wireless ad hoc networks, TCP faces particular problems with, for example, route failure, channel contention and high bit error rates. These factors are responsible for the performance degradation of TCP in wireless ad hoc networks. The research community has produced a wide range of proposals to improve the performance of TCP in wireless ad hoc networks. This article presents a survey of these proposals (approaches). A classification of TCP improvement proposals for wireless ad hoc networks is presented, which makes it easy to compare the proposals falling under the same category. Tables which summarize the approaches for quick overview are provided. Possible directions for further improvements in this area are suggested in the conclusions. The aim of the article is to enable the reader to quickly acquire an overview of the state of TCP in wireless ad hoc networks.This study is partly funded by Kohat University of Science & Technology (KUST),
Pakistan, and the Higher Education Commission, Pakistan
Modeling a new Startup Algorithm for TCP New Reno
Peer reviewedPublisher PD
STCP: A New Transport Protocol for High-Speed Networks
Transmission Control Protocol (TCP) is the dominant transport protocol today and likely to be adopted in future high‐speed and optical networks. A number of literature works have been done to modify or tune the Additive Increase Multiplicative Decrease (AIMD) principle in TCP to enhance the network performance. In this work, to efficiently take advantage of the available high bandwidth from the high‐speed and optical infrastructures, we propose a Stratified TCP (STCP) employing parallel virtual transmission layers in high‐speed networks. In this technique, the AIMD principle of TCP is modified to make more aggressive and efficient probing of the available link bandwidth, which in turn increases the performance. Simulation results show that STCP offers a considerable improvement in performance when compared with other TCP variants such as the conventional TCP protocol and Layered TCP (LTCP)
Measuring Performance of Web Protocol with Updated Transport Layer Techniques for Faster Web Browsing
The author acknowledges the Electronics Research Group of University of Aberdeen, UK, for all the support in conducting these experiments. This research was completed as a part of the University of Aberdeen, dot.rural project. (EP/G066051/1).Publisher PD
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