How to calculate correlation p-value?

82 views (last 30 days)
Ritankar Das
Ritankar Das on 26 May 2016
Commented: Gregory Pelletier on 24 Jan 2024
I have a correlation matrix and have performed some filtering on it. Now I want to calculate the p-value of the filtered correlation matrix. Can anyone help we with the code. [R,P]=corrcoef(A) returns both the correlation matrix as well as the p-value matrix, but I already have the correlation matrix, and just want to calculate the p-value matrix.
Thank you in advance. Ritankar.

Sign in to answer this question.

Answers (3)

Gregory Pelletier
Gregory Pelletier on 24 Jan 2024
Here is how to calculate the p-values the same way that matlab does in corrcoef if you only know the correlation coefficient matrix R and the number of samples N (see p_check below for the manual calculation of the p-value compared with p from corrcoef):
load hospital
X = [hospital.Weight hospital.BloodPressure];
[R, p] = corrcoef(X)
N = size(X,1);
t = sqrt(N-2).*R./sqrt(1-R.^2);
s = tcdf(t,N-2);
p_check = 2 * min(s,1-s)
% R =
% 1.0000e+00 1.5579e-01 2.2269e-01
% 1.5579e-01 1.0000e+00 5.1184e-01
% 2.2269e-01 5.1184e-01 1.0000e+00
% p =
% 1.0000e+00 1.2168e-01 2.5953e-02
% 1.2168e-01 1.0000e+00 5.2460e-08
% 2.5953e-02 5.2460e-08 1.0000e+00
% p_check =
% 0 1.2168e-01 2.5953e-02
% 1.2168e-01 0 5.2460e-08
% 2.5953e-02 5.2460e-08 0
the cyclist
the cyclist on 26 May 2016
You cannot calculate a P-value from only a correlation matrix. You need the underlying data. The reason why is pretty easy to understand ... The correlation matrix could have come from a dataset with maybe N=10 measurements, or perhaps N=100000 measurements. These will (almost certainly) have different P-values.
  1 Comment
Gregory Pelletier
Gregory Pelletier on 24 Jan 2024
Here is how to calculate the p-values the same way that matlab does in corrcoef if you only know the correlation coefficient matrix R and the number of samples N (see p_check below for the manual calculation of the p-value compared with p from corrcoef):
load hospital
X = [hospital.Weight hospital.BloodPressure];
[R, p] = corrcoef(X)
N = size(X,1);
t = sqrt(N-2).*R./sqrt(1-R.^2);
s = tcdf(t,N-2);
p_check = 2 * min(s,1-s)
% R =
% 1.0000e+00 1.5579e-01 2.2269e-01
% 1.5579e-01 1.0000e+00 5.1184e-01
% 2.2269e-01 5.1184e-01 1.0000e+00
% p =
% 1.0000e+00 1.2168e-01 2.5953e-02
% 1.2168e-01 1.0000e+00 5.2460e-08
% 2.5953e-02 5.2460e-08 1.0000e+00
% p_check =
% 0 1.2168e-01 2.5953e-02
% 1.2168e-01 0 5.2460e-08
% 2.5953e-02 5.2460e-08 0

Sign in to comment.

Anil Kamat
Anil Kamat on 30 May 2021
Edited: Anil Kamat on 30 May 2021
Lets say
N --> no.of the observations / data points
r --> assumed corr.coef
t = r*sqrt((N-2)/(1-r^2)); % find t-statistics
p1 = 1 - tcdf(t,(N-2)) % find pvalue using Student's t cumulative distribution function for one sample test.
https://www.mathworks.com/help/stats/tcdf.html
  1 Comment
the cyclist
the cyclist on 1 Jun 2021
Edited: the cyclist on 1 Jun 2021
Ran in:
Can you help me understand that your formula is correct? Here is a correlation coefficient calculated from a randome dataset, and then your calculation. (I modified your formula only to make meaningful variable names.)
rng default
N = 1000;
x = randn(N,2);
[correlationMatrix,pMatrix] = corrcoef(x);
pValueFromOriginalData = pMatrix(1,2);
correlationCoefficient = correlationMatrix(1,2);
t = correlationCoefficient*sqrt((N-2)/(1-correlationCoefficient^2)); % find t-statistics
p_from_anil = 1 - tcdf(t,(N-2)); % find pvalue using Student's t cumulative distribution function for one sample test
sprintf('p-value from original data = %7.4f',pValueFromOriginalData)
ans = 'p-value from original data = 0.7695'
sprintf('p-value from Anil = %7.4f',p_from_anil)
ans = 'p-value from Anil = 0.6153'
They give different results.

Sign in to comment.

Categories

Find more on Descriptive Statistics in Help Center and File Exchange

Tags

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!