Towards Generic Simulation for Demanding Stochastic Processes

Decis. Sci. Pub Date : 2021-05-26 DOI:10.20944/PREPRINTS202105.0624.V1

Demetris Koutsoyiannis, P. Dimitriadis

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引用次数: 12

Abstract

We outline and test a new methodology for genuine simulation of stochastic processes with any dependence and any marginal distribution. We reproduce time dependence with a generalized, time symmetric or asymmetric, moving-average scheme. This implements linear filtering of non-Gaussian white noise, with the weights of the filter determined by analytical equations in terms of the autocovariance of the process. We approximate the marginal distribution of the process, irrespective of its type, using a number of its cumulants, which in turn determine the cumulants of white noise in a manner that can readily support the generation of random numbers from that approximation, so that it be applicable for stochastic simulation. The simulation method is genuine as it uses the process of interest directly without any transformation (e.g. normalization). We illustrate the method in a number of synthetic and real-world applications with either persistence or antipersistence, and with non-Gaussian marginal distributions that are bounded, thus making the problem more demanding. These include distributions bounded from both sides, such as uniform, and bounded form below, such as exponential and Pareto, possibly having a discontinuity at the origin (intermittence). All examples studied show the satisfactory performance of the method.

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面向高要求随机过程的通用模拟

我们概述并测试了一种新的方法，用于任何依赖和任何边际分布的随机过程的真正模拟。我们用广义的、时间对称的或不对称的移动平均方案再现时间依赖性。这实现了非高斯白噪声的线性滤波，滤波器的权重由分析方程根据过程的自协方差确定。我们近似过程的边际分布，无论其类型如何，使用其累积量的数量，这反过来又确定白噪声的累积量，这种方式可以很容易地支持从该近似值生成随机数，因此它适用于随机模拟。模拟方法是真实的，因为它直接使用感兴趣的过程而没有任何转换(例如规范化)。我们在许多具有持久性或反持久性的合成和实际应用程序中演示了该方法，并且使用了有界的非高斯边缘分布，从而使问题更加苛刻。这些分布包括从两边有界的分布，如均匀分布，以及下面的有界形式，如指数分布和帕累托分布，可能在原点处具有不连续(间歇性)。算例表明，该方法具有令人满意的性能。

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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Decis. Sci.

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