| Type: | Package |
| Title: | The Cochran-Armitage Trend Test |
| Version: | 2.0 |
| Author: | Zhicheng Du, Yuantao Hao |
| Maintainer: | Zhicheng Du<dgdzc@hotmail.com> |
| Description: | This function conducts the Cochran-Armitage trend test to a 2 by k contingency table. It will report the test statistic (Z) and p-value.A linear trend in the frequencies will be calculated, because the weights (0,1,2) will be used by default. |
| License: | GPL-3 |
| Imports: | stats |
| LazyData: | TRUE |
| NeedsCompilation: | no |
| Packaged: | 2017-05-18 23:47:15 UTC; dgdzc |
| Repository: | CRAN |
| Date/Publication: | 2017-05-19 06:01:28 UTC |
The Cochran-Armitage Trend Test
Description
This function conducts the Cochran-Armitage trend test to a 2 by k contingency table. It will report the test statistic (Z) and p-value. A linear trend in the frequencies will be calculated, because the weights (0,1,2) will be used by default.
Usage
CATT(binomial,ordinal,table)
Arguments
ordinal |
the vector of the ordinal variable |
binomial |
the vector of the binomial variable |
table |
option, the contingency table of table(binomial,ordinal) |
Value
Z |
the test statistic |
p.value |
the p value of the hypothesis test |
Note
Please feel free to contact us, if you have any advice and find any bug!
Reference:
1. Cochran, WG (1954). Some methods for strengthening the common chi-squared tests. Biometrics. International Biometric Society. 10 (4): 417-451.
2. Armitage, P (1955). Tests for Linear Trends in Proportions and Frequencies. Biometrics. International Biometric Society. 11 (3): 375-386.
Update:
Version 0.2.0: The p value of two side was specified.
Author(s)
Zhicheng Du<dgdzc@hotmail.com>, Yuantao Hao<haoyt@mail.sysu.edu.cn>
Examples
# type of data is variable
binomial=c(rep(0,20),rep(1,10),rep(0,20),rep(1,20),rep(0,20),rep(1,30))
ordinal=c(rep(0,30),rep(1,40),rep(2,50))
CATT(binomial=binomial,ordinal=ordinal)
# type of data is table
tbl=matrix(c(20,10,20,20,20,30),nrow=2)
CATT(table=tbl)