Categorical distribution: Difference between revisions

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{{For|the technique for simplifying evaluation of integrals|Order of integration (calculus)}}
 
'''Order of integration''', denoted ''I''(''d''), is a [[summary statistics|summary statistic]] for a [[time series]]. It reports the minimum number of differences required to obtain a covariance [[stationary series]].
 
== Integration of order zero ==
A [[time series]] is integrated of order 0 if it admits a [[moving average representation]] with
 
:<math>\sum_{k=0}^\infty \mid{b_k}^2\mid  <  \infty,</math>
 
where <math>b</math> is the possibly infinite vector of moving average weights (coefficients or parameters). This implies that the autocovariance is decaying to 0 sufficiently quickly. This is a necessary, but not sufficient condition for a [[stationary process]]. Therefore, all stationary processes are I(0), but not all I(0) processes are stationary.{{Citation needed|date=December 2009}}
 
== Integration of order ''d'' ==
 
A [[time series]] is integrated of order ''d'' if
 
:<math>(1-L)^d X_t \ </math>
 
is integrated of order 0, where <math>L</math> is the [[lag operator]] and <math>1-L </math> is the first difference, i.e.
 
: <math>(1-L) X_t = X_t - X_{t-1} = \Delta X. </math>
 
In other words, a process is integrated to order ''d''  if taking repeated differences ''d'' times yields a stationary process.
 
== Constructing an integrated series ==
 
An ''I''(''d'') process can be constructed by summing an ''I''(''d''&nbsp;&minus;&nbsp;1) process:
*Suppose <math>X_t </math> is ''I''(''d''&nbsp;&minus;&nbsp;1)
*Now construct a series <math>Z_t = \sum_{k=0}^t X_k</math>
 
*Show that ''Z'' is ''I''(''d'') by observing its first-differences are ''I''(''d''&nbsp;&minus;&nbsp;1):
 
:: <math> \triangle Z_t = (1-L) X_t,</math>
 
: where 
 
:: <math>X_t \sim I(d-1). \,</math>
 
== See also ==
*[[ARIMA]]
*[[Autoregressive–moving-average model|ARMA]]
*[[Random walk]]
 
{{More footnotes|date=December 2009}}
 
== References ==
* Hamilton, James D. (1994) ''Time Series Analysis.'' Princeton University Press. p. 437. ISBN 0-691-04289-6.
 
[[Category:Time series analysis]]

Revision as of 04:33, 10 December 2013

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Order of integration, denoted I(d), is a summary statistic for a time series. It reports the minimum number of differences required to obtain a covariance stationary series.

Integration of order zero

A time series is integrated of order 0 if it admits a moving average representation with

k=0bk2<,

where b is the possibly infinite vector of moving average weights (coefficients or parameters). This implies that the autocovariance is decaying to 0 sufficiently quickly. This is a necessary, but not sufficient condition for a stationary process. Therefore, all stationary processes are I(0), but not all I(0) processes are stationary.Potter or Ceramic Artist Truman Bedell from Rexton, has interests which include ceramics, best property developers in singapore developers in singapore and scrabble. Was especially enthused after visiting Alejandro de Humboldt National Park.

Integration of order d

A time series is integrated of order d if

(1L)dXt

is integrated of order 0, where L is the lag operator and 1L is the first difference, i.e.

(1L)Xt=XtXt1=ΔX.

In other words, a process is integrated to order d if taking repeated differences d times yields a stationary process.

Constructing an integrated series

An I(d) process can be constructed by summing an I(d − 1) process:

  • Show that Z is I(d) by observing its first-differences are I(d − 1):
Zt=(1L)Xt,
where
XtI(d1).

See also

Template:More footnotes

References

  • Hamilton, James D. (1994) Time Series Analysis. Princeton University Press. p. 437. ISBN 0-691-04289-6.