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引用次数: 170
摘要
Box-Cox t (BCT)分布是因变量Y的模型,同时显示偏度和细峰态。该分布由一个功率变换Y v定义,它具有一个移位和缩放(截断)的t分布,自由度参数为τ。分布有4个参数,用BCT(μ, σ,ν, τ)表示。参数μ、σ、ν和τ可以分别解释为与位置(中位数)、尺度(基于百分位的变异系数)、偏度(向对称的幂变换)和峰度(自由度)有关。对位置、尺度和形状的广义加性模型(GAMLSS)进行了扩展,允许将分布的每个参数建模为解释变量的线性和/或非线性参数和/或光滑非参数函数。使用Fisher评分算法通过最大化(惩罚)似然来拟合模型。给出了算法所需的似然函数对μ、σ、ν和τ的一阶导数和期望二阶导数和交叉导数。通过两个数据应用程序说明了BCT分布的使用。
Using the Box-Cox t distribution in GAMLSS to model skewness and kurtosis
The Box-Cox t (BCT) distribution is presented as a model for a dependent variable Y exhibiting both skewness and leptokurtosis. The distribution is defined by a power transformation Y v having a shifted and scaled (truncated) t distribution with degrees of freedom parameter τ. The distribution has four parameters and is denoted by BCT(μ, σ,ν, τ). The parameters μ, σ,ν and τ may be interpreted as relating to location (median), scale (centile-based coefficient of variation), skewness (power transformation to symmetry) and kurtosis (degrees of freedom), respectively. The generalized additive model for location, scale and shape (GAMLSS) is extended to allow each of the parameters of the distribution to be modelled as linear and/or non-linear parametric and/or smooth non-parametric functions of explanatory variables. A Fisher scoring algorithm is used to fit the model by maximizing a (penalized) likelihood. The first and expected second and cross derivatives of the likelihood with respect to μ, σ,ν and τ, required for the algorithm, are provided. The use of the BCT distribution is illustrated by two data applications.
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