主动队列管理算法中,随机早期检测(RED)提供网络拥塞避免和拥塞控制机制。
In Internet, active queue management algorithm of random early detection (RED) algorithm provides congestion avoidance and control mechanisms.
本文首先介绍一种随机早期检测机制(RED)与混合TCP和UDP流的离散时间模型。
In this paper, we first introduce a discrete time model of the mixed TCP and User Datagram Protocol (UDP) connection with the RED mechanism.
主动队列管理是目前的研究热点,随机早期检测(RED)算法是一种经典的队列管理算法。
Active queue management is a focus of current research. Random Early Detection (RED) is one kind of classical queue management algorithms.
在路由器中根据网络拥塞状态和数据流到达速率,采用基于速率的随机早期检测机制进行缓存管理。
On the basis of the estimated packet arrival rate and the status of network congestion in router, the buffer was managed using rate-based random early detection(RED).
随机早期检测(RED)队列管理算法的参数设置主要依赖于使用者的经验,并且其相关理论指导存在一定缺陷。
The parameter setting for Random Early Detection(RED) queue management algorithm depends on the user's experience and its related theoretical guidance exists some defects at present.
结合范式方法对传输控制协议和随机早期检测(TCP -RED)离散反馈系统中出现的不同种类的边界碰撞分岔现象进行了分析。
Various types of border collision bifurcations occurring in a discrete feedback transmission control protocol-random early detection (TCP-RED) system are analyzed based on normal form method.
主动队列管理是实现网络拥塞控制的重要技术,随机早期检测算法作为一个重要的主动队列管理机制,在一定程度上能够缓解网络拥塞。
It is a main technology to solve the congestion in Internet by active queue management. As an important AQM method, RED algorithm can alleviate the network congestion in a certain extent.
主动队列管理是实现网络拥塞控制的重要技术,随机早期检测算法作为一个重要的主动队列管理机制,在一定程度上能够缓解网络拥塞。
It is a main technology to solve the congestion in Internet by active queue management. As an important AQM method, RED algorithm can alleviate the network congestion in a certain extent.
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