Introduce four basic algorithms about TCP congestion control.
介绍了TCP拥塞控制的四种基本算法。
As TCP is a main transport protocol in Internet, TCP congestion control algorithm is broadly researched.
由于TCP是因特网上的主要传输协议,所以我们重点研究t CP拥塞控制算法。
TCP congestion control and ACK mechanism are thoroughly discussed and thus improved in this dissertation.
本文主要从tcp的拥塞控制和确认机制两方面进行研究和改进。
At present, almost all the research focuses on TCP congestion control field and IP congestion control field.
本文的工作主要就是集中在IP层的拥塞控制方向。
The purpose of TCP Congestion Control was to ensure that every device on the network cooperates to not overwhelm its resource.
TCP的目标就是确保网络中的每一台设备都是合作状态,而不会压跨它占有的资源。
This paper first introduces the principles of TCP congestion control, and several kinds of TCP congestion verdict are analyzed and discussed in detail.
概述了TCP拥塞控制的基本原理,详细分析和研究了无线应用中各TCP拥塞裁决技术,给出了各拥塞裁决技术所对应的拥塞控制机制。
TCP Congestion Control on clients and servers is setup to "back off" in these cases in order to ensure that the network remains available for all its users.
TCP拥塞控制就是在这种情况下,通过服务器和客户端的控制“回退”,以确保网络对于其他的所有用户仍然可用。
Thanks to TCP congestion verdict, TCP congestion control is invoked in term of a definite object view, which result in improving TCP performances in wireless environments.
根据对网络拥塞的裁决,实现了有的放矢地调用TCP拥塞控制,从而提高了TCP在无线应用中的性能。
The TCP congestion control algorithms are composed by these basic algorithms. This paper analysis the different characteristics and research on the model about how to make the performance better.
TCP拥塞算法对这些基本算法进行组合,分析其不同的特点,并且通过建模对算法组合策略进行研究。
Due to the end-to-end essence of TCP, the source algorithm of congestion control can't acquire enough information of intermediate network to control traffic ideally.
由于TCP端到端的本质,拥塞控制的源算法无法利用网络中的具体信息进行理想地拥塞控制。
Increasing UDP deteriorates the ability of TCP to control congestion and is a source of high drop rates.
不断增加的UDP数据流恶化了TCP控制拥塞的能力,而且是引起高丢包率的原因之一。
The core of TCP is congestion control mechanism.
TCP的核心是拥塞控制机制。
Congestion control algorithms are composed of TCP source algorithm and IP link active queue management algorithm.
拥塞控制算法由TCP源算法和IP链路主动队列管理算法构成。
The round trip transmitted delay from source to destination has a great adverse effect on the stability and rapidity of the transmission control protocol (TCP) congestion control.
源端到目的端的往返传输时延将给TCP拥塞控制的稳定性和快速性带来极大的不利。
The design of TCP mainly aims at system stability, protocol compatibility, traffic fairness, resource utility, network congestion control and so on.
TCP设计主要针对系统稳定性、协议兼容性、业务公平性、资源利用率以及拥塞控制等问题。
Under the wireless network, the performance of TCP is better than that of UDP which lack of congestion control.
在无线环境下,TCP的传输效果要好于不带拥塞控制的UDP。
For the problem of congestion control in TCP networks with input-delay and state-delay, an active queue management algorithm is presented based on an adaptive sliding mode control.
针对具有输入时滞和状态时滞的TCP网络的拥塞控制问题,提出了一种基于自适应滑模控制的主动队列管理算法。
For the problem of congestion control in TCP networks with input-delay, an active queue management algorithm is presented based on an adaptive sliding mode control.
针对具有输入时滞的TCP网络的拥塞控制问题,提出了一种基于自适应滑模控制的主动队列管理算法。
This paper sets up a mathematical model which describes the latency of TCP connection, when the edged router adopts the E2CN congestion control algorithm.
建立了当边缘路由器采用E2CN拥塞控制的机制时TCP连接时延的数学模型。
The fundamental solution can only be to improve the congestion control algorithm properly, so that the sending rate of TCP flow tends to smooth, and thus suitable for the delivery of UDP streams.
根本解决办法只能是适当改进拥塞控制算法,使TCP流发送速率趋于平滑,从而适合传输UDP流。
Traditional TCP protocol's design was just concerning about wire network. It contributes the loss of data package to network congestion and employ congestion-control process to solve the problem.
传统的TCP协议是针对有线网络设计的,它认为数据包的丢失皆是由网络拥塞造成,从而启动拥塞控制过程。
Traditional TCP protocol's design was just concerning about wire network. It contributes the loss of data package to network congestion and employ congestion-control process to solve the problem.
传统的TCP协议是针对有线网络设计的,它认为数据包的丢失皆是由网络拥塞造成,从而启动拥塞控制过程。
应用推荐