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"Backshift" redirects here. For the linguistic sense see Sequence of tenses.

In time series analysis, the lag operator or backshift operator operates on an element of a time series to produce the previous element. For example, given some time series

${\displaystyle X=\{X_{1},X_{2},\dots \}\,}$

then

${\displaystyle \,LX_{t}=X_{t-1}}$ for all ${\displaystyle \;t>1\,}$

or equivalently

${\displaystyle \,X_{t}=LX_{t+1}}$ for all ${\displaystyle \;t\geq 1\,}$

where L is the lag operator. Sometimes the symbol B for backshift is used instead. Note that the lag operator can be raised to arbitrary integer powers so that

${\displaystyle \,L^{-1}X_{t}=X_{t+1}\,}$

and

${\displaystyle \,L^{k}X_{t}=X_{t-k}.\,}$

Lag polynomials

Also polynomials of the lag operator can be used, and this is a common notation for ARMA (autoregressive moving average) models. For example,

${\displaystyle \varepsilon _{t}=X_{t}-\sum _{i=1}^{p}\varphi _{i}X_{t-i}=\left(1-\sum _{i=1}^{p}\varphi _{i}L^{i}\right)X_{t}\,}$

specifies an AR(p) model.

A polynomial of lag operators is called a lag polynomial so that, for example, the ARMA model can be concisely specified as

${\displaystyle \varphi (L)X_{t}=\theta (L)\varepsilon _{t}\,}$

where ${\displaystyle \varphi (L)}$ and ${\displaystyle \theta (L)}$ respectively represent the lag polynomials

${\displaystyle \varphi (L)=1-\sum _{i=1}^{p}\varphi _{i}L^{i}\,}$

and

${\displaystyle \theta (L)=1+\sum _{i=1}^{q}\theta _{i}L^{i}.\,}$

Polynomials of lag operators follow similar rules of multiplication and division as do numbers and polynomials of variables. For example,

${\displaystyle X_{t}={\frac {\theta (L)}{\varphi (L)}}\varepsilon _{t},}$

means the same thing as

${\displaystyle \varphi (L)X_{t}=\theta (L)\varepsilon _{t}\,.}$

As with polynomials of variables, a polynomial in the lag operator can be divided by another one using polynomial long division. In general dividing one such polynomial by another, when each has a finite order (highest exponent), results in an infinite-order polynomial.

An annihilator operator, denoted ${\displaystyle [\ ]_{+}}$, removes the entries of the polynomial with negative power (future values).

Difference operator

Mining Engineer (Excluding Oil ) Truman from Alma, loves to spend time knotting, largest property developers in singapore developers in singapore and stamp collecting. Recently had a family visit to Urnes Stave Church. In time series analysis, the first difference operator Δ is a special case of lag polynomial.

${\displaystyle {\begin{array}{lcr}\Delta X_{t}&=X_{t}-X_{t-1}\\\Delta X_{t}&=(1-L)X_{t}~.\end{array}}}$

Similarly, the second difference operator works as follows:

${\displaystyle {\begin{aligned}\Delta (\Delta X_{t})&=\Delta X_{t}-\Delta X_{t-1}\\\Delta ^{2}X_{t}&=(1-L)\Delta X_{t}\\\Delta ^{2}X_{t}&=(1-L)(1-L)X_{t}\\\Delta ^{2}X_{t}&=(1-L)^{2}X_{t}~.\end{aligned}}}$

The above approach generalises to the ith difference operator ${\displaystyle \Delta ^{i}X_{t}=(1-L)^{i}X_{t}\ .}$

Conditional expectation

It is common in stochastic processes to care about the expected value of a variable given a previous information set. Let ${\displaystyle \Omega _{t}}$ be all information that is common knowledge at time t (this is often subscripted below the expectation operator); then the expected value of the realisation of X, j time-steps in the future, can be written equivalently as:

${\displaystyle E[X_{t+j}|\Omega _{t}]=E_{t}[X_{t+j}]\,.}$

With these time-dependent conditional expectations, there is the need to distinguish between the backshift operator (B) that only adjusts the date of the forecasted variable and the Lag operator (L) that adjusts equally the date of the forecasted variable and the information set:

${\displaystyle L^{n}E_{t}[X_{t+j}]=E_{t-n}[X_{t+j-n}]\,,}$

${\displaystyle B^{n}E_{t}[X_{t+j}]=E_{t}[X_{t+j-n}]\,.}$

References

• 20 year-old Real Estate Agent Rusty from Saint-Paul, has hobbies and interests which includes monopoly, property developers in singapore and poker. Will soon undertake a contiki trip that may include going to the Lower Valley of the Omo.
  
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• 20 year-old Real Estate Agent Rusty from Saint-Paul, has hobbies and interests which includes monopoly, property developers in singapore and poker. Will soon undertake a contiki trip that may include going to the Lower Valley of the Omo.
  
  My blog: http://www.primaboinca.com/view_profile.php?userid=5889534

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See also

• Autoregressive model
• Autoregressive moving average model
• Moving average model
• Shift operator
• Z-transform