1) TCP-friendly protocol
与TCP友好的协议
2) TCP-friendly
TCP友好
1.
Investigation of transmissional congestion control of TCP-friendly video-stream with large data-amount;
大数据量TCP友好视频流传输拥塞控制研究
2.
The Application of a Simple TCP-friendly Congestion/Rate Control Arithmetic on Multimedia Teaching System;
一个简单TCP友好拥塞/速率控制算法在多媒体教学系统中的应用
3.
A Kind of TCP-friendly Congestion Control Algorithm for Multimedia Layered Multicast;
一种TCP友好的多媒体流分层组播拥塞控制算法
4) TCP-friendliness
TCP友好性
1.
The upper limit,which is the maximum sending rate of TCP data flow,maintains the TCP-friendliness.
该算法的基木思想是对注入网络的码率进行限制,上限是为了保证TCP友好性,即TCP数据流的最大发送速率;下限是保证多媒体数据流的传输质量而给定的最低发送速率,这个速率开始时是根据应用由发送端指定的。
2.
The proposed scheme can ensure its TCP-friendliness in dynamic network condition and has prompt responsiveness to the change of network conditions.
分析了Padhye's TCP吞吐量模型存在的缺陷,提出一种新的基于动态TCP吞吐量模型的流媒体拥塞控制机制,它能够保证动态环境下的TCP友好性,并对网络状态的变化有很好的响应性。
5) TCP-friendly
TCP友好性
1.
TFRC is a well-known rate-based TCP-friendly congestion control mechanism.
针对端到端实时通信业务对于网络传输的要求,提出基于速率控制的TCP友好性拥塞控制策略(TFRC)的一种改进算法——TFRC-CJUTD算法。
2.
The paper discusses a rate-based TCP-friendly congestion control mechanism-TFRC,studies its basic structure and some key details.
研究了基于速率控制的TCP友好性拥塞控制策略——TFRC,分析了其基本机制和关键问题,提出利用延迟抖动作为潜在拥塞信号来改进TFRC的速率控制机制,以适应实时业务低抖动的要求,并通过ns仿真验证了改进了的TFRC算法对实时业务的良好性能。
3.
In this paper an adaptive TCP-friendly congestion control algorithm has been investigated, which is mainly about how to achieve fair bandwith of the network under the objective of congestion control.
为了在长时间的竞争环境下能与TCP资料流获得相同的带宽占有率且得到较平稳的传输速率,所以才发展出TCP友好性控制协议。
6) TCP friendly
TCP友好
1.
TCP Friendly Congestion Control Algorithm for Real-time Stream Unicast;
一种TCP友好的实时流单播拥塞控制算法
2.
Based on TCP rating model, TFRC provides a TCP friendly rate control to non TCP traffics.
TCP友好是Internet拥塞控制的基本要求。
3.
RBMCC uses the local loss rate and aggregated ACK of intermediate nodes worked out by receiver and TCP friendly rate computed by sender to provide a timely and accurate response to the network congestion.
组播拥塞控制机制中由接收者计算本地丢失率、中间节点聚集反馈报文、发送方计算TCP友好发送速率 ,并最终实现对网络拥塞的快速、准确响应。
补充资料:2,4,6-TCP
分子式:C6H3Cl3O
分子量:197.45
CAS号:88-06-2
性质:密度1.49。熔点65-68°C。沸点246°C。闪点99°C。水溶性0.8 g/L。
分子量:197.45
CAS号:88-06-2
性质:密度1.49。熔点65-68°C。沸点246°C。闪点99°C。水溶性0.8 g/L。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条