Order isomorphism

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In probability theory, the law of total covariance,[1] covariance decomposition formula, or ECCE states that if X, Y, and Z are random variables on the same probability space, and the covariance of X and Y is finite, then

cov(X,Y)=E(cov(X,YZ))+cov(E(XZ),E(YZ)).

The nomenclature in this article's title parallels the phrase law of total variance. Some writers on probability call this the "conditional covariance formula"[2] or use other names.

(The conditional expected values E( X | Z ) and E( Y | Z ) are random variables in their own right, whose values depends on the value of Z. Notice that the conditional expected value of X given the event Z = z is a function of z (this is where adherence to the conventional rigidly case-sensitive notation of probability theory becomes important!). If we write E( X | Z = z) = g(z) then the random variable E( X | Z ) is just g(Z). Similar comments apply to the conditional covariance.)

Proof

The law of total covariance can be proved using the law of total expectation: First,

cov[X,Y]=E[XY]E[X]E[Y]

from the definition of covariance. Then we apply the law of total expectation by conditioning on the random variable Z:

=E[E[XYZ]]E[E[XZ]]E[E[YZ]]

Now we rewrite the term inside the first expectation using the definition of covariance:

=E[cov[X,YZ]+E[XZ]E[YZ]]E[E[XZ]]E[E[YZ]]

Since expectation of a sum is the sum of expectations, we can regroup the terms:

=E[cov[X,YZ]]+E[E[XZ]E[YZ]]E[E[XZ]]E[E[YZ]]

Finally, we recognize the final two terms as the covariance of the conditional expectations E[X|Z] and E[Y|Z]:

=E(cov(X,YZ))+cov(E(XZ),E(YZ))

Notes and references

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See also

External links

  1. Matthew R. Rudary, On Predictive Linear Gaussian Models, ProQuest, 2009, page 121.
  2. Sheldon M. Ross, A First Course in Probability, sixth edition, Prentice Hall, 2002, page 392.