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In [[statistics]], in the analysis of two-way [[randomized block design]]s where the response variable can take only two possible outcomes (coded as 0 and 1), '''Cochran's Q test''' is a [[non-parametric]] [[statistical test]] to verify if ''k'' treatments have identical effects.<ref>{{cite book
|title = Practical Nonparametric Statistics
|author = Conover, William Jay
|ISBN = 9780471160687
|edition = Third Edition
|publisher = Wiley, New York, NY USA
|year = 1999
|pages = 388–395
}}</ref><ref>National Institute of Standards and Technology. [http://www.itl.nist.gov/div898/software/dataplot/refman1/auxillar/cochran.htm Cochran Test]</ref> It is named for  [[William Gemmell Cochran]].  Cochran's Q test should not be confused with [[Cochran's C test]], which is a variance outlier test.
 
==Background==
Cochran's Q test assumes that there are ''k''&nbsp;>&nbsp;2 experimental treatments and that the observations are arranged in ''b'' [[blocking (statistics)|blocks]]; that is,
 
{| class="wikitable"
|-
!
! Treatment 1
! Treatment 2
! <math>\cdots</math>
! Treatment ''k''
|-
| Block 1
| ''X''<sub>11</sub>
| ''X''<sub>12</sub>
| <math>\cdots</math>
| ''X''<sub>1''k''</sub>
|-
| Block 2
| ''X''<sub>21</sub>
| ''X''<sub>22</sub>
| <math>\cdots</math>
| ''X''<sub>2''k''</sub>
|-
| Block 3
| ''X''<sub>31</sub>
| ''X''<sub>32</sub>
| <math>\cdots</math>
| ''X''<sub>3''k''</sub>
|-
| <center><math>\vdots</math></center>
| <center><math>\vdots</math></center>
| <center><math>\vdots</math></center>
| <center><math>\ddots</math></center>
| <center><math>\vdots</math></center>
|-
| Block ''b''
| ''X''<sub>''b''1</sub>
| ''X''<sub>''b''2</sub>
| <math>\cdots</math>
| ''X''<sub>''b''k</sub>
|}
 
==Description==
Cochran's Q test is
:H<sub>0</sub>: The treatments are equally effective.
:H<sub>a</sub>: There is a difference in effectiveness among treatments.
 
The Cochran's Q test statistic is
:<math>
T = k\left(k-1\right)\frac{\sum\limits_{j=1}^k \left(X_{\bullet j} - \frac{N}{k}\right)^2}{\sum\limits_{i=1}^b X_{i\bullet}\left(k-X_{i\bullet}\right)}
</math>
where
:''k'' is the number of treatments
:''X<sub>•&nbsp;j</sub>'' is the column total for the ''j''<sup>th</sup> treatment
:''b'' is the number of blocks
:''X<sub>i&nbsp;•</sub>'' is the row total for the ''i''<sup>th</sup> block
:''N'' is the grand total
 
==Critical region==
For [[significance level]] α, the critical region is
:<math>
T > \Chi^2_{1-\alpha,k-1}
</math>
where Χ<sup>2</sup><sub>1 &minus; α,k &minus; 1</sub> is the (1 &minus; α)-[[quantile]] of the [[chi-squared distribution]] with ''k'' &minus; 1 degrees of freedom. The null hypothesis is rejected if the test statistic is in the critical region. If the Cochran test rejects the null hypothesis of equally effective treatments, pairwise [[multiple comparisons]] can be made by applying Cochran's Q test on the two treatments of interest.
 
==Assumptions==
Cochran's Q test is based on the following assumptions:
#A large sample approximation; in particular, it assumes that ''b'' is "large".
#The blocks were randomly selected from the population of all possible blocks.
#The outcomes of the treatments can be coded as binary responses (i.e., a "0" or "1") in a way that is common to all treatments within each block.  
 
==Related tests==
* When using this kind of design for a response that is not binary but rather ordinal or continuous, one instead uses the [[Friedman test]] or [[Durbin test]]s.
* The case where there are exactly two treatments is equivalent to [[McNemar's test]], which is itself equivalent to a two-tailed [[sign test]].
 
==References==
{{Reflist}}
 
{{NIST-PD}}
 
[[Category:Statistical tests]]
[[Category:Non-parametric statistics]]

Latest revision as of 23:40, 15 April 2013

In statistics, in the analysis of two-way randomized block designs where the response variable can take only two possible outcomes (coded as 0 and 1), Cochran's Q test is a non-parametric statistical test to verify if k treatments have identical effects.[1][2] It is named for William Gemmell Cochran. Cochran's Q test should not be confused with Cochran's C test, which is a variance outlier test.

Background

Cochran's Q test assumes that there are k > 2 experimental treatments and that the observations are arranged in b blocks; that is,

Treatment 1 Treatment 2 Treatment k
Block 1 X11 X12 X1k
Block 2 X21 X22 X2k
Block 3 X31 X32 X3k
Block b Xb1 Xb2 Xbk

Description

Cochran's Q test is

H0: The treatments are equally effective.
Ha: There is a difference in effectiveness among treatments.

The Cochran's Q test statistic is

T=k(k1)j=1k(XjNk)2i=1bXi(kXi)

where

k is the number of treatments
X• j is the column total for the jth treatment
b is the number of blocks
Xi • is the row total for the ith block
N is the grand total

Critical region

For significance level α, the critical region is

T>X1α,k12

where Χ21 − α,k − 1 is the (1 − α)-quantile of the chi-squared distribution with k − 1 degrees of freedom. The null hypothesis is rejected if the test statistic is in the critical region. If the Cochran test rejects the null hypothesis of equally effective treatments, pairwise multiple comparisons can be made by applying Cochran's Q test on the two treatments of interest.

Assumptions

Cochran's Q test is based on the following assumptions:

  1. A large sample approximation; in particular, it assumes that b is "large".
  2. The blocks were randomly selected from the population of all possible blocks.
  3. The outcomes of the treatments can be coded as binary responses (i.e., a "0" or "1") in a way that is common to all treatments within each block.

Related tests

  • When using this kind of design for a response that is not binary but rather ordinal or continuous, one instead uses the Friedman test or Durbin tests.
  • The case where there are exactly two treatments is equivalent to McNemar's test, which is itself equivalent to a two-tailed sign test.

References

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  2. National Institute of Standards and Technology. Cochran Test