Two step ahead autoregressive prediction

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Elias Pergantis il 14 Nov 2023

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Risposto: Divyam il 21 Ago 2024

Is it possible to use the AR function in Matlab to train models such as:

y(t+2)=a(1)u(t-1)+a(2)u(t-2)+...+a(p)u(t-p)

rather than:

y(t+1)=a(1)u(t-1)+a(2)u(t-2)+...+a(p)u(t-p)

I want to avoid predicting y(t+2) using y(t+1).

Many thanks

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Ganesh il 29 Nov 2023

Hi @Elias Pergantis,

If you would like to predict y(t+2), you can use the Nonconsecutive Lags parameter and tweak the array indices to achieve the result. However, by skipping a term in the middle might stand as a blocker to predict the subsequent terms of the sequence. Kindly ensure that all terms of the sequence are sequentially computed to avoid miscalculations.

Thank you,

Ganesh Saravanan

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Answer 1

Divyam il 21 Ago 2024

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Apri in MATLAB Online

Hi @Elias Pergantis, yes, you can utilize the AR functions to train models which have non-consecutive lags between terms using the 'ARLag' parameter of the 'regARIMA' function. Here is a sample code for the same.

% Sample Model Equation: y(t) = 0.25*u(t-3) + 0.1*u(t-4) + 0.05*u(t-5) 
% The 'AR' parameter sets the coefficients of the u(t-k) terms 
Mdl = regARIMA('AR', {0.25, 0.1, 0.05}, 'ARLags', [3,4,5]) 
Mdl = 
  regARIMA with properties:

     Description: "ARMA(5,0) Error Model (Gaussian Distribution)"
      SeriesName: "Y"
    Distribution: Name = "Gaussian"
       Intercept: NaN
            Beta: [1×0]
               P: 5
               Q: 0
              AR: {0.25 0.1 0.05} at lags [3 4 5]
             SAR: {}
              MA: {}
             SMA: {}
        Variance: NaN
% 'ARLag' parameter specifies that nonzero AR coefficients exist at lags t-3, t-4, and t-5  
Mdl.AR 
ans = 1x5 cell array
    {[0]}    {[0]}    {[0.2500]}    {[0.1000]}    {[0.0500]}