Bayesian statistics and Monte Carlo methods

IF 0.9 Q4 REMOTE SENSING Journal of Geodetic Science Pub Date : 2018-02-01 DOI:10.1515/jogs-2018-0003
K. Koch
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引用次数: 7

Abstract

Abstract The Bayesian approach allows an intuitive way to derive the methods of statistics. Probability is defined as a measure of the plausibility of statements or propositions. Three rules are sufficient to obtain the laws of probability. If the statements refer to the numerical values of variables, the so-called random variables, univariate and multivariate distributions follow. They lead to the point estimation by which unknown quantities, i.e. unknown parameters, are computed from measurements. The unknown parameters are random variables, they are fixed quantities in traditional statistics which is not founded on Bayes’ theorem. Bayesian statistics therefore recommends itself for Monte Carlo methods, which generate random variates from given distributions. Monte Carlo methods, of course, can also be applied in traditional statistics. The unknown parameters, are introduced as functions of the measurements, and the Monte Carlo methods give the covariance matrix and the expectation of these functions. A confidence region is derived where the unknown parameters are situated with a given probability. Following a method of traditional statistics, hypotheses are tested by determining whether a value for an unknown parameter lies inside or outside the confidence region. The error propagation of a random vector by the Monte Carlo methods is presented as an application. If the random vector results from a nonlinearly transformed vector, its covariance matrix and its expectation follow from the Monte Carlo estimate. This saves a considerable amount of derivatives to be computed, and errors of the linearization are avoided. The Monte Carlo method is therefore efficient. If the functions of the measurements are given by a sum of two or more random vectors with different multivariate distributions, the resulting distribution is generally not known. TheMonte Carlo methods are then needed to obtain the covariance matrix and the expectation of the sum.
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贝叶斯统计和蒙特卡罗方法
贝叶斯方法允许一种直观的方法来推导统计方法。概率被定义为对陈述或命题的合理性的度量。三条规则足以获得概率定律。如果语句是指变量的数值,那么所谓的随机变量、单变量和多变量分布紧随其后。它们导致从测量中计算未知量(即未知参数)的点估计。未知参数是随机变量,是传统统计学中不以贝叶斯定理为基础的固定量。因此,贝叶斯统计推荐使用蒙特卡罗方法,它从给定的分布中生成随机变量。当然,蒙特卡罗方法也可以应用于传统统计学中。引入未知参数作为测量的函数,用蒙特卡罗方法给出这些函数的协方差矩阵和期望。导出了未知参数以给定概率分布的置信区域。按照传统统计方法,通过确定未知参数的值是在置信区域内还是在置信区域外来检验假设。给出了用蒙特卡罗方法对随机矢量进行误差传播的一个应用。如果随机向量是由一个非线性变换的向量产生的,那么它的协方差矩阵和期望遵循蒙特卡罗估计。这节省了大量的导数计算,避免了线性化的误差。因此蒙特卡罗方法是有效的。如果测量的函数是由两个或多个具有不同多元分布的随机向量的和给出的,则结果分布通常是未知的。然后需要蒙特卡罗方法来获得协方差矩阵和和的期望。
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来源期刊
Journal of Geodetic Science
Journal of Geodetic Science REMOTE SENSING-
CiteScore
1.90
自引率
7.70%
发文量
3
审稿时长
14 weeks
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