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Decomposition of Symmetry Model into Three Models for Cumulative Probabilities in Square Contingency Tables

Journal Name:

  • European Journal of Pure and Applied Mathematics

Publication Year:

  • 2013

Key Words:

Author NameUniversity of Author
Abstract (2. Language): 
For square contingency tables with ordered categories, we decompose the symmetry model into three models for cumulative probabilities. Three models are the cumulative two ratios-parameter symmetry, the global symmetry, and the marginal means equality models. An example is given.
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  • 3
299-306
  • English

REFERENCES

References: 

[1] A Agresti. A simple diagonals-parameter symmetry and quasi-symmetry model. Statistics
and Probability Letters, 1:313–316, 1983.
[2] Y M M Bishop, S E Fienberg, and P W Holland. Discrete Multivariate Analysis: Theory
and Practice. The MIT Press, Cambridge, Massachusetts, 1975.
[3] A H Bowker. A test for symmetry in contingency tables. Journal of the American Statistical
Association, 43:572–574, 1948.
[4] H Caussinus. Contribution à l’analyse statistique des tableaux de corrélation. Annales
de la Faculté des Sciences de l’Université de Toulouse, 29:77–182, 1965.
[5] L A Goodman. Multiplicative models for square contingency tables with ordered categories.
Biometrika, 66:413–418, 1979.
[6] P McCullagh. A class of parametric models for the analysis of square contingency tables
with ordered categories. Biometrika, 65:413–418, 1978.
[7] N Miyamoto, W Ohtsuka, and S Tomizawa. Linear diagonals-parameter symmetry and
quasi-symmetry models for cumulative probabilities in square contingency tables with
ordered categories. Biometrical Journal, 46:664–674, 2004.
[8] A Stuart. A test for homogeneity of the marginal distributions in a two-way classification.
Biometrika, 42:412–416, 1955.
REFERENCES 306
[9] K Tahata and S Tomizawa. Decomposition of symmetry using two-ratios-parameter symmetry
model and orthogonality for square contingency tables. Journal of Statistics: Advances
in Theory and Applications, 1:19–33, 2009.
[10] K Tahata, H Yamamoto, and S Tomizawa. Orthogonality of decompositions of symmetry
into extended symmetry and marginal equimoment for multi-way tables with ordered
categories. Austrian Journal of Statistics, 37:185–194, 2008.
[11] S Tomizawa. Decompositions for 2-ratios-parameter symmetry model in square contingency
tables with ordered categories. Biometrical Journal, 29:45–55, 1987.
[12] S Tomizawa. Diagonals-parameter symmetry model for cumulative probabilities in
square contingency tables with ordered categories. Biometrics, 49:883–887, 1993.
[13] S Tomizawa, N Miyamoto, K Yamamoto, and A Sugiyama. Extensions of linear diagonalparameter
symmetry and quasi-symmetry models for cumulative probabilities in square
contingency tables. Statistica Neerlandica, 61:273–283, 2007.
[14] S Tomizawa and K Tahata. The analysis of symmetry and asymmetry: Orthogonality of
decomposition of symmetry into quasi-symmetry and marginal symmetry for multi-way
tables. Journal de la Société Française de Statistique, 148:3–36, 2007.
[15] H Yamamoto, T Iwashita, and S Tomizawa. Decomposition of symmetry into ordinal
quasi-symmetry and marginal equimoment for multi-way tables. Austrian Journal of
Statistics, 36:291–306, 2007.
[16] K Yamamoto, S Ando, and S Tomizawa. Decomposing asymmetry into extended quasisymmetry
and marginal homogeneity for cumulative probabilities in square contingency
tables. Journal of Statistics: Advances in Theory and Applications, 5:1–13, 2011.
[17] K Yamamoto and S Tomizawa. Analysis of unaided vision data using new decomposition
of symmetry. American Medical Journal, 3:37–42, 2012.

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