Autocovariance


In probability theory and statistics, given a stochastic process, the autocovariance is a function that gives the covariance of the process with itself at pairs of time points. Autocovariance is closely related to the autocorrelation of the process in question.

Auto-covariance of stochastic processes

Definition

With the usual notation for the expectation operator, if the stochastic process has the mean function, then the autocovariance is given by
where and are two moments in time.

Definition for weakly stationary process

If is a weakly stationary process, then the following are true:
and
and
where is the lag time, or the amount of time by which the signal has been shifted.
The autocovariance function of a WSS process is therefore given by:
which is equivalent to

Normalization

It is common practice in some disciplines to normalize the autocovariance function to get a time-dependent Pearson correlation coefficient. However in other disciplines the normalization is usually dropped and the terms "autocorrelation" and "autocovariance" are used interchangeably.
The definition of the normalized auto-correlation of a stochastic process is
If the function is well-defined, its value must lie in the range, with 1 indicating perfect correlation and −1 indicating perfect anti-correlation.
For a WSS process, the definition is
where

Properties

Symmetry property

respectively for a WSS process:

Linear filtering

The autocovariance of a linearly filtered process
is

Calculating turbulent diffusivity

Autocovariance can be used to calculate turbulent diffusivity. Turbulence in a flow can cause the fluctuation of velocity in space and time. Thus, we are able to identify turbulence through the statistics of those fluctuations.
Reynolds decomposition is used to define the velocity fluctuations :
where is the true velocity, and is the expected value of velocity. If we choose a correct, all of the stochastic components of the turbulent velocity will be included in. To determine, a set of velocity measurements that are assembled from points in space, moments in time or repeated experiments is required.
If we assume the turbulent flux can be caused by a random walk, we can use Fick's laws of diffusion to express the turbulent flux term:
The velocity autocovariance is defined as
where is the lag time, and is the lag distance.
The turbulent diffusivity can be calculated using the following 3 methods:

Auto-covariance of random vectors