Invariance and factorial models

Invariance and factorial models

Two factors having the same set of levels are said to be homologous. This paper aims to extend the domain of factorial models to designs that include homologous factors. In doing so, it is necessary first to identify the characteristic property of those vector spaces that constitute the standard fac...

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Bibliographic Details
Published in:Journal of the Royal Statistical Society. Series B, Statistical methodology Vol. 62; no. 2; pp. 209 - 256
Main Author: McCullagh, P.
Format: Journal Article
Language:English
Published: Oxford, UK and Boston, USA Blackwell Publishers Ltd 2000
Blackwell Publishers
Royal Statistical Society
Series:Journal of the Royal Statistical Society Series B
Subjects:
Algebra
Analysis of variance
Category representation
Diallel cross
Factorials
Group representation
Homologous factors
Isomorphic representations
Lattice
Linear models
Linear transformations
Marginality
Marginalization
Mathematical economics
Mathematical functions
Mathematical vectors
Mendelian inheritance
Modelling
Monoids
Morphisms
Nested design
Production factors
Quotient space
Replication invariance
Selection invariance
Statistical models
Variance
Vector space models
Vector spaces
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Summary:Two factors having the same set of levels are said to be homologous. This paper aims to extend the domain of factorial models to designs that include homologous factors. In doing so, it is necessary first to identify the characteristic property of those vector spaces that constitute the standard factorial models. We argue here that essentially every interesting statistical model specified by a vector space is necessarily a representation of some algebraic category. Logical consistency of the sort associated with the standard marginality conditions is guaranteed by category representations, but not by group representations. Marginality is thus interpreted as invariance under selection of factor levels ( I-representations), and invariance under replication of levels ( S-representations). For designs in which each factor occurs once, the representations of the product category coincide with the standard factorial models. For designs that include homologous factors, the set of S-representations is a subset of the I-representations. It is shown that symmetry and quasi-symmetry are representations in both senses, but that not all representations include the constant functions (intercept). The beginnings of an extended algebra for constructing general I-representations is described and illustrated by a diallel cross design.
Bibliography:istex:C39D30D1E6C93CBA28859644F99E238192C907C0
ark:/67375/WNG-C5ST29WF-S
ArticleID:RSSB229
ObjectType-Article-2
SourceType-Scholarly Journals-1
ObjectType-Feature-1
content type line 23
ISSN:1369-7412
1467-9868
DOI:10.1111/1467-9868.00229