用于分析非稀疏大型马尔可夫模型的状态排序和分类

Mohammadsadegh Mohagheghi
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引用次数: 0

摘要

马尔可夫链和马尔可夫决策过程已被广泛用于对计算机系统的行为进行概率建模。数值和迭代方法通常用于分析这些模型。近几十年来,人们一直在努力提高这些数值方法的效率。本文以具有非稀疏结构的马尔可夫模型为重点,提出了一套新的启发式方法,用于确定模型状态的优先次序,以减少总计算时间。在这些启发式方法中,一组模拟运行用于统计分析每个状态对其他状态所需数值的影响。根据这一标准,确定每个状态在更新其数值时的优先级。所提出的启发式方法提供了一种状态排序方法,可改善状态间的数值传播。所提出的方法还可扩展用于需要基于磁盘技术分析模型的超大型模型。实验结果表明,本文提出的方法缩短了大多数非稀疏模型迭代法的运行时间。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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State ordering and classification for analyzing non-sparse large Markov models

Markov chains and Markov decision processes have been widely used to model the behavior of computer systems with probabilistic aspects. Numerical and iterative methods are commonly used to analyze these models. Many efforts have been made in recent decades to improve the efficiency of these numerical methods. In this paper, focusing on Markov models with non-sparse structure, a new set of heuristics is proposed for prioritizing model states with the aim of reducing the total computation time. In these heuristics, a set of simulation runs are used for statistical analysis of the effect of each state on the required values of the other states. Under this criterion, the priority of each state in updating its values is determined. The proposed heuristics provide a state ordering that improves the value propagation among the states. The proposed methods are also extended for very large models where disk-based techniques are required to analyze the models. Experimental results show that our proposed methods in this paper reduce the running times of the iterative methods for most cases of non-sparse models.

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