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Справка Scilab >> Statistics > Descriptive Statistics > cov

cov

Covariance matrix

Syntax

C = cov(x)
C = cov(x, 0)
C = cov(x, 1)
C = cov(x, y)
C = cov(x, y, 0)
C = cov(x, y, 1)

Parameters

x

a nobs-by-1 or nobs-by-nvar matrix of doubles

y

a nobs-by-1 or nobs-by-nvar matrix of doubles

C

a square matrix of doubles, the empirical covariance

Description

If x is a nobs-by-1 matrix, then cov(x) returns the variance of x, normalized by nobs-1.

If x is a nobs-by-nvar matrix, then cov(x) returns the nvar-by-nvar covariance matrix of the columns of x, normalized by nobs-1. Here, each column of x is a variable and each row of x is an observation.

If x and y are two nobs-by-1 matrices, then cov(x, y) returns the 2-by-2 covariance matrix of x and y, normalized by nobs-1, where nobs is the number of observations.

cov(x, 0) is the same as cov(x) and cov(x, y, 0) is the same as cov(x, y). In this case, if the population is from a normal distribution, then C is the best unbiased estimate of the covariance matrix.

cov(x, 1) and cov(x, y, 1) normalize by nobs. In this case, C is the second moment matrix of the observations about their mean.

The covariance of X and Y is defined by:

where E is the expectation.

This function is compatible with Matlab.

Examples

x = [1; 2];
y = [3; 4];
C = cov(x, y)
expected = [0.5, 0.5; 0.5, 0.5];
C = cov([x, y])
x = [230; 181; 165; 150; 97; 192; 181; 189; 172; 170];
y = [125; 99; 97; 115; 120; 100; 80; 90; 95; 125];
expected = [
1152.4556, -88.911111
-88.911111, 244.26667
];
C = cov(x, y)
C = cov([x, y])
// Source [3]
A = [
4.0 2.0 0.60
4.2 2.1 0.59
3.9 2.0 0.58
4.3 2.1 0.62
4.1 2.2 0.63
];
S = [
0.025 0.0075 0.00175
0.0075 0.007 0.00135
0.00175 0.00135 0.00043
];
C = cov(A)

Bibliography

Wikipedia: Covariance matrix

[3] NIST/SEMATECH e-Handbook of Statistical Methods, 6.5.4.1. Mean Vector and Covariance Matrix

"Introduction to probability and statistics for engineers and scientists", Sheldon Ross

History

ВерсияОписание
5.5.0 cov function added, to improve mvvacov (deprecated)
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Last updated:
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