Skip to main content

Multiple-membership multiple-classification models for social network and group dependences

Journal Article


Abstract


  • The social network literature on network dependences has largely ignored other sources of dependence, such as the school that a student attends, or the area in which an individual lives. The multilevel modelling literature on school and area dependences has, in turn, largely ignored social networks. To bridge this divide, a multiple-membership multiple-classification modelling approach for jointly investigating social network and group dependences is presented. This allows social network and group dependences on individual responses to be investigated and compared. The approach is used to analyse a subsample of the Adolescent Health Study data set from the USA, where the response variable of interest is individual level educational attainment, and the three individual level covariates are sex, ethnic group and age. Individual, network, school and area dependences are accounted for in the analysis. The network dependences can be accounted for by including the network as a classification in the model, using various network configurations, such as ego-nets and cliques. The results suggest that ignoring the network affects the estimates of variation for the classifications that are included in the random part of the model (school, area and individual), as well as having some influence on the point estimates and standard errors of the estimates of regression coefficients for covariates in the fixed part of the model. From a substantive perspective, this approach provides a flexible and practical way of investigating variation in an individual level response due to social network dependences, and estimating the share of variation of an individual response for network, school and area classifications.

Publication Date


  • 2014

Citation


  • Tranmer, M., Steel, D. G. & Browne, W. J. (2014). Multiple-membership multiple-classification models for social network and group dependences. Journal of the Royal Statistical Society. Series A: Statistics in Society, 177 (2), 439-455.

Scopus Eid


  • 2-s2.0-84893766309

Ro Metadata Url


  • http://ro.uow.edu.au/eispapers/2018

Number Of Pages


  • 16

Start Page


  • 439

End Page


  • 455

Volume


  • 177

Issue


  • 2

Abstract


  • The social network literature on network dependences has largely ignored other sources of dependence, such as the school that a student attends, or the area in which an individual lives. The multilevel modelling literature on school and area dependences has, in turn, largely ignored social networks. To bridge this divide, a multiple-membership multiple-classification modelling approach for jointly investigating social network and group dependences is presented. This allows social network and group dependences on individual responses to be investigated and compared. The approach is used to analyse a subsample of the Adolescent Health Study data set from the USA, where the response variable of interest is individual level educational attainment, and the three individual level covariates are sex, ethnic group and age. Individual, network, school and area dependences are accounted for in the analysis. The network dependences can be accounted for by including the network as a classification in the model, using various network configurations, such as ego-nets and cliques. The results suggest that ignoring the network affects the estimates of variation for the classifications that are included in the random part of the model (school, area and individual), as well as having some influence on the point estimates and standard errors of the estimates of regression coefficients for covariates in the fixed part of the model. From a substantive perspective, this approach provides a flexible and practical way of investigating variation in an individual level response due to social network dependences, and estimating the share of variation of an individual response for network, school and area classifications.

Publication Date


  • 2014

Citation


  • Tranmer, M., Steel, D. G. & Browne, W. J. (2014). Multiple-membership multiple-classification models for social network and group dependences. Journal of the Royal Statistical Society. Series A: Statistics in Society, 177 (2), 439-455.

Scopus Eid


  • 2-s2.0-84893766309

Ro Metadata Url


  • http://ro.uow.edu.au/eispapers/2018

Number Of Pages


  • 16

Start Page


  • 439

End Page


  • 455

Volume


  • 177

Issue


  • 2