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通过二维轨道分析二元多变量纵向数据:在南非阿金库尔健康与社会人口监测系统中的应用

Analysis of Binary Multivariate Longitudinal Data via 2-Dimensional Orbits: An Application to the Agincourt Health and Socio-Demographic Surveillance System in South Africa.

作者信息

Visaya Maria Vivien, Sherwell David, Sartorius Benn, Cromieres Fabien

机构信息

Department of Pure and Applied Mathematics, University of Johannesburg, Johannesburg, South Africa.

School of Computational and Applied Mathematics, University of the Witwatersrand, Johannesburg, South Africa.

出版信息

PLoS One. 2015 Apr 28;10(4):e0123812. doi: 10.1371/journal.pone.0123812. eCollection 2014.

DOI:10.1371/journal.pone.0123812
PMID:25919116
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4412578/
Abstract

We analyse demographic longitudinal survey data of South African (SA) and Mozambican (MOZ) rural households from the Agincourt Health and Socio-Demographic Surveillance System in South Africa. In particular, we determine whether absolute poverty status (APS) is associated with selected household variables pertaining to socio-economic determination, namely household head age, household size, cumulative death, adults to minor ratio, and influx. For comparative purposes, households are classified according to household head nationality (SA or MOZ) and APS (rich or poor). The longitudinal data of each of the four subpopulations (SA rich, SA poor, MOZ rich, and MOZ poor) is a five-dimensional space defined by binary variables (questions), subjects, and time. We use the orbit method to represent binary multivariate longitudinal data (BMLD) of each household as a two-dimensional orbit and to visualise dynamics and behaviour of the population. At each time step, a point (x, y) from the orbit of a household corresponds to the observation of the household, where x is a binary sequence of responses and y is an ordering of variables. The ordering of variables is dynamically rearranged such that clusters and holes associated to least and frequently changing variables in the state space respectively, are exposed. Analysis of orbits reveals information of change at both individual- and population-level, change patterns in the data, capacity of states in the state space, and density of state transitions in the orbits. Analysis of household orbits of the four subpopulations show association between (i) households headed by older adults and rich households, (ii) large household size and poor households, and (iii) households with more minors than adults and poor households. Our results are compared to other methods of BMLD analysis.

摘要

我们分析了来自南非阿金库尔健康与社会人口监测系统的南非(SA)和莫桑比克(MOZ)农村家庭的人口纵向调查数据。具体而言,我们确定绝对贫困状况(APS)是否与选定的与社会经济决定因素相关的家庭变量有关,即户主年龄、家庭规模、累计死亡人数、成人与未成年人比例以及人口流入情况。为了进行比较,家庭根据户主国籍(SA或MOZ)和APS(富裕或贫困)进行分类。四个亚人群(SA富裕、SA贫困、MOZ富裕和MOZ贫困)中每个亚人群的纵向数据都是一个由二元变量(问题)、主体和时间定义的五维空间。我们使用轨道方法将每个家庭的二元多变量纵向数据(BMLD)表示为二维轨道,并可视化人群的动态和行为。在每个时间步,家庭轨道上的一个点(x,y)对应于该家庭的观测值,其中x是响应的二元序列,y是变量的排序。变量的排序会动态重新排列,以便分别暴露与状态空间中变化最少和最频繁的变量相关的聚类和空洞。对轨道的分析揭示了个体和群体层面的变化信息、数据中的变化模式、状态空间中状态的容量以及轨道中状态转换的密度。对四个亚人群家庭轨道的分析表明:(i)由年长者担任户主的家庭与富裕家庭之间存在关联;(ii)家庭规模大与贫困家庭之间存在关联;(iii)未成年人比成年人多的家庭与贫困家庭之间存在关联。我们将结果与其他BMLD分析方法进行了比较。

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