基于 EWMA 参数调整的 TCP 重传算法优化分析框架

Michał Grabowski, Robert Janowski
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引用次数: 0

摘要

本文基于雅各布森平滑算法推导出 TCP(传输控制协议)重传概率的数学描述,该算法属于 EWMA(指数加权移动平均)范畴。该描述以 RTT(往返时间)样本的概率密度函数(pdf)和雅各布森算法的两个主要参数 α、β 为参数。虽然这不是一个近似形式的表达式,但它被表述为一种有效的算法,让我们可以明确地计算出作为 α、β 和 RTT 样本 pdf 函数的 RTO(重传超时)概率值。我们通过对状态空间进行智能离散化,并用离散近似等价物替换连续函数,实现了这种方法的有效性。通过这种方式,我们减轻了所处理的离散分布的万有引力,从而使计算复杂度从乘法增长(n⋅m)变为线性增长(n+m)。我们提供了一系列α、β参数值和不同形状的正态分布和拉普拉斯分布的 RTO 概率评估。根据所获得的数值结果,我们可以就 α、β 参数最佳值的选择以及 RTT 样本所取自的 pdf 的影响得出一些结论。
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The analytical framework for optimizing TCP retransmission algorithm based on adjustment of its EWMA parameters
In this paper we derive mathematical description of TCP (Transmission Control Protocol) retransmission probability based on Jacobson’s smoothing algorithm that belongs to EWMA (Exponentially Weighted Moving Average) category. This description is parametrized on the probability density function (pdf) of RTT (Round Trip Time) samples and α, β – two primary parameters of Jacobson’s algorithm. Although it is not a close form expression, it is formulated as an effective algorithm that let us to explicitly calculate the values of RTO (Retransmission Time Out) probability as a function of α, β and the pdf of RTT samples. We achieve the effectiveness of this approach by applying smart discretization of the state space and replacement of continuous functions with discrete approximate equivalents. In this way, we mitigate the cardinality of discrete distributions we deal with that results in linear (n+m) instead of multiplicative (n⋅m) growth of computational complexity. We provide the evaluation of RTO probability for a wide set of α, β parameter values and differently shaped Normal and Laplace pdfs the RTT samples are taken from. The obtained numerical results let us to draw some conclusions regarding the choice of optimal values of α, β parameters as well as the impact of pdf the RTT samples are taken from.
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CiteScore
1.50
自引率
14.30%
发文量
0
审稿时长
12 weeks
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