vision: Unaided Distance Vision
In coin: Conditional Inference Procedures in a Permutation Test Framework
vision R Documentation
Unaided Distance Vision
Description
Assessment of unaided distance vision of women in Britain.
Usage
vision
Format
A contingency table with 7477 observations on 2 variables.
Right.Eye-
a factor with levels "Highest Grade", "Second Grade",
"Third Grade" and "Lowest Grade".
Left.Eye-
a factor with levels "Highest Grade", "Second Grade",
"Third Grade" and "Lowest Grade".
Details
Paired ordered categorical data from case-records of eye-testing of 7477 women
aged 30–39 years employed by Royal Ordnance Factories in Britain during
1943–46, as given by Stuart (1953).
This data set was used by Stuart (1955) to illustrate a test of marginal
homogeneity. Winell and Lindbäck (2018) also used the data,
demonstrating a score-independent test for ordered categorical data.
Source
Stuart, A. (1953). The estimation and comparison of strengths of association
in contingency tables. Biometrika 40(1/2), 105–110.
doi: 10.2307/2333101
References
Stuart, A. (1955). A test for homogeneity of the marginal distributions in a
two-way classification. Biometrika 42(3/4), 412–416.
doi: 10.1093/biomet/42.3-4.412
Winell, H. and Lindbäck, J. (2018). A general
score-independent test for order-restricted inference. Statistics in
Medicine 37(21), 3078–3090. doi: 10.1002/sim.7690
Examples
## Asymptotic Stuart test (Q = 11.96)
diag(vision) <- 0 # speed-up
mh_test(vision)
## Asymptotic score-independent test
## Winell and Lindbaeck (2018)
(st <- symmetry_test(vision,
ytrafo = function(data)
trafo(data, factor_trafo = function(y)
zheng_trafo(as.ordered(y)))))
ss <- statistic(st, type = "standardized")
idx <- which(abs(ss) == max(abs(ss)), arr.ind = TRUE)
ss[idx[1], idx[2], drop = FALSE]
coin documentation built on April 16, 2022, 3:01 a.m.
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| vision | R Documentation |
Unaided Distance Vision
Description
Assessment of unaided distance vision of women in Britain.
Usage
vision
Format
A contingency table with 7477 observations on 2 variables.
Right.Eye-
a factor with levels
"Highest Grade","Second Grade","Third Grade"and"Lowest Grade". Left.Eye-
a factor with levels
"Highest Grade","Second Grade","Third Grade"and"Lowest Grade".
Details
Paired ordered categorical data from case-records of eye-testing of 7477 women aged 30–39 years employed by Royal Ordnance Factories in Britain during 1943–46, as given by Stuart (1953).
This data set was used by Stuart (1955) to illustrate a test of marginal homogeneity. Winell and Lindbäck (2018) also used the data, demonstrating a score-independent test for ordered categorical data.
Source
Stuart, A. (1953). The estimation and comparison of strengths of association in contingency tables. Biometrika 40(1/2), 105–110. doi: 10.2307/2333101
References
Stuart, A. (1955). A test for homogeneity of the marginal distributions in a two-way classification. Biometrika 42(3/4), 412–416. doi: 10.1093/biomet/42.3-4.412
Winell, H. and Lindbäck, J. (2018). A general score-independent test for order-restricted inference. Statistics in Medicine 37(21), 3078–3090. doi: 10.1002/sim.7690
Examples
## Asymptotic Stuart test (Q = 11.96)
diag(vision) <- 0 # speed-up
mh_test(vision)
## Asymptotic score-independent test
## Winell and Lindbaeck (2018)
(st <- symmetry_test(vision,
ytrafo = function(data)
trafo(data, factor_trafo = function(y)
zheng_trafo(as.ordered(y)))))
ss <- statistic(st, type = "standardized")
idx <- which(abs(ss) == max(abs(ss)), arr.ind = TRUE)
ss[idx[1], idx[2], drop = FALSE]
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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