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NAG Library Routine Document

g05phf (times_arma)

▸▿ Contents

1 Purpose

2 Specification

3 Description

4 References

5 Arguments

6 Error Indicators and Warnings

7 Accuracy

8 Parallelism and Performance

9 Further Comments

▸▿ 10 Example

10.1 Program Text

10.2 Program Data

10.3 Program Results

1

Purpose

g05phf generates a realization of a univariate time series from an autoregressive moving average (ARMA) model. The realization may be continued or a new realization generated at subsequent calls to g05phf.

2

Specification

Fortran Interface

Subroutine g05phf (

mode, n, xmean, ip, phi, iq, theta, avar, r, lr, state, var, x, ifail)

Integer, Intent (In)	::	mode, n, ip, iq, lr
Integer, Intent (Inout)	::	state(*), ifail
Real (Kind=nag_wp), Intent (In)	::	xmean, phi(ip), theta(iq), avar
Real (Kind=nag_wp), Intent (Inout)	::	r(lr)
Real (Kind=nag_wp), Intent (Out)	::	var, x(n)

C Header Interface

#include nagmk26.h

void	g05phf_ ( const Integer mode, const Integer n, const double xmean, const Integer ip, const double phi[], const Integer iq, const double theta[], const double avar, double r[], const Integer lr, Integer state[], double var, double x[], Integer *ifail)

3

Description

Let the vector

x_{t}

, denote a time series which is assumed to follow an autoregressive moving average (ARMA) model of the form:

\begin{matrix} x_{t} - μ = & ϕ_{1} (x_{t - 1} - μ) + ϕ_{2} (x_{t - 2} - μ) + \dots + ϕ_{p} (x_{t - p} - μ) + \\ ε_{t} - θ_{1} ε_{t - 1} - θ_{2} ε_{t - 2} - \dots - θ_{q} ε_{t - q} \end{matrix}

where

ε_{t}

, is a residual series of independent random perturbations assumed to be Normally distributed with zero mean and variance

σ^{2}

. The parameters

\{ϕ_{i}\}

, for

i = 1, 2, \dots, p

, are called the autoregressive (AR) parameters, and

\{θ_{j}\}

, for

j = 1, 2, \dots, q

, the moving average (MA) parameters. The parameters in the model are thus the

p

ϕ

values, the

q

θ

values, the mean

μ

and the residual variance

σ^{2}

g05phf sets up a reference vector containing initial values corresponding to a stationary position using the method described in Tunnicliffe–Wilson (1979). The routine can then return a realization of

x_{1}, x_{2}, \dots, x_{n}

. On a successful exit, the recent history is updated and saved in the reference vector r so that g05phf may be called again to generate a realization of

x_{n + 1}, x_{n + 2}, \dots

, etc. See the description of the argument mode in Section 5 for details.

One of the initialization routines g05kff (for a repeatable sequence if computed sequentially) or g05kgf (for a non-repeatable sequence) must be called prior to the first call to g05phf.

4

References

Knuth D E (1981) The Art of Computer Programming (Volume 2) (2nd Edition) Addison–Wesley

Tunnicliffe–Wilson G (1979) Some efficient computational procedures for high order ARMA models J. Statist. Comput. Simulation 8 301–309

5

Arguments

1: $mode$ – IntegerInput

On entry: a code for selecting the operation to be performed by the routine.

$mode = 0$: Set up reference vector only.
$mode = 1$: Generate terms in the time series using reference vector set up in a prior call to g05phf.
$mode = 2$: Set up reference vector and generate terms in the time series.

Constraint:

mode = 0

1

2

2: $n$ – IntegerInput

On entry:

n

, the number of observations to be generated.

Constraint:

n \geq 0

3: $xmean$ – Real (Kind=nag_wp)Input

On entry: the mean of the time series.

4: $ip$ – IntegerInput

On entry:

p

, the number of autoregressive coefficients supplied.

Constraint:

ip \geq 0

5: $phi (ip)$ – Real (Kind=nag_wp) arrayInput

On entry: the autoregressive coefficients of the model,

ϕ_{1}, ϕ_{2}, \dots, ϕ_{p}

6: $iq$ – IntegerInput

On entry:

q

, the number of moving average coefficients supplied.

Constraint:

iq \geq 0

7: $theta (iq)$ – Real (Kind=nag_wp) arrayInput

On entry: the moving average coefficients of the model,

θ_{1}, θ_{2}, \dots, θ_{q}

8: $avar$ – Real (Kind=nag_wp)Input

On entry:

σ^{2}

, the variance of the Normal perturbations.

Constraint:

avar \geq 0.0

9: $r (lr)$ – Real (Kind=nag_wp) arrayCommunication Array

On entry: if

mode = 1

, the reference vector from the previous call to g05phf.

On exit: the reference vector.

10: $lr$ – IntegerInput

On entry: the dimension of the array r as declared in the (sub)program from which g05phf is called.

Constraint:

lr \geq ip + iq + 6 + \max (ip, iq + 1)

11: $state (*)$ – Integer arrayCommunication Array

Note: the actual argument supplied must be the array state supplied to the initialization routines g05kff or g05kgf.

On entry: contains information on the selected base generator and its current state.

On exit: contains updated information on the state of the generator.

12: $var$ – Real (Kind=nag_wp)Output

On exit: the proportion of the variance of a term in the series that is due to the moving-average (error) terms in the model. The smaller this is, the nearer is the model to non-stationarity.

13: $x (n)$ – Real (Kind=nag_wp) arrayOutput

On exit: contains the next

n

observations from the time series.

14: $ifail$ – IntegerInput/Output

On entry: ifail must be set to

0

- 1 ​ or ​ 1

. If you are unfamiliar with this argument you should refer to Section 3.4 in How to Use the NAG Library and its Documentation for details.

For environments where it might be inappropriate to halt program execution when an error is detected, the value

- 1 ​ or ​ 1

is recommended. If the output of error messages is undesirable, then the value

1

is recommended. Otherwise, if you are not familiar with this argument, the recommended value is

0

. When the value $- 1 or 1$ is used it is essential to test the value of ifail on exit.

On exit:

ifail = 0

unless the routine detects an error or a warning has been flagged (see Section 6).

6

Error Indicators and Warnings

If on entry

ifail = 0

- 1

, explanatory error messages are output on the current error message unit (as defined by x04aaf).

Errors or warnings detected by the routine:

$ifail = 1$: On entry, $mode = 〈value〉$ .
Constraint: $mode = 0$ , $1$ or $2$ .

$ifail = 2$: On entry, $n = 〈value〉$ .
Constraint: $n \geq 0$ .

$ifail = 4$: On entry, $ip = 〈value〉$ .
Constraint: $ip \geq 0$ .

$ifail = 5$: On entry, the AR parameters are outside the stationarity region.

$ifail = 6$: On entry, $iq = 〈value〉$ .
Constraint: $iq \geq 0$ .

$ifail = 8$: On entry, $avar = 〈value〉$ .
Constraint: $avar \geq 0.0$ .

$ifail = 9$: ip or iq is not the same as when r was set up in a previous call.
Previous value of $ip = 〈value〉$ and $ip = 〈value〉$ .
Previous value of $iq = 〈value〉$ and $iq = 〈value〉$ .

Reference vector r has been corrupted or not initialized correctly.

$ifail = 10$: On entry, lr is not large enough, $lr = 〈value〉$ : minimum length required $= 〈value〉$ .

$ifail = 11$: On entry, state vector has been corrupted or not initialized.

$ifail = - 99$: An unexpected error has been triggered by this routine. Please contact NAG.
See Section 3.9 in How to Use the NAG Library and its Documentation for further information.

$ifail = - 399$: Your licence key may have expired or may not have been installed correctly.
See Section 3.8 in How to Use the NAG Library and its Documentation for further information.

$ifail = - 999$: Dynamic memory allocation failed.
See Section 3.7 in How to Use the NAG Library and its Documentation for further information.

7

Accuracy

Any errors in the reference vector's initial values should be very much smaller than the error term; see Tunnicliffe–Wilson (1979).

8

Parallelism and Performance

g05phf is threaded by NAG for parallel execution in multithreaded implementations of the NAG Library.

Please consult the X06 Chapter Introduction for information on how to control and interrogate the OpenMP environment used within this routine. Please also consult the Users' Note for your implementation for any additional implementation-specific information.

9

Further Comments

The time taken by g05phf is essentially of order

{(ip)}^{2}

Note: The reference vector, r, contains a copy of the recent history of the series. If attempting to re-initialize the series by calling g05kff or g05kgf a call to g05phf with

mode = 0

must also be made. In the repeatable case the calls to g05phf should be performed in the same order (at the same point(s) in simulation) every time g05kff is used. When the generator state is saved and restored using the argument state, the time series reference vector must be saved and restored as well.

The ARMA model for a time series can also be written as:

(x_{n} - E) = A_{1} (x_{n - 1} - E) + \dots + A_{NA} (x_{n - NA} - E) + B_{1} a_{n} + \dots + B_{NB} a_{n - NB + 1}

where

$x_{n}$ is the observed value of the time series at time $n$ ,
$NA$ is the number of autoregressive parameters, $A_{i}$ ,
$NB$ is the number of moving average parameters, $B_{i}$ ,
$E$ is the mean of the time series,

and

$a_{t}$ is a series of independent random Standard Normal perturbations.

This is the form used in g05phf. This is related to the form given in Section 3 by:

$B_{1}^{2} = σ^{2}$ ,
$B_{i + 1} = - θ_{i} σ = - θ_{i} B_{1}, i = 1, 2, \dots, q$ ,
$NB = q + 1$ ,
$E = μ$ ,
$A_{i} = ϕ_{i}, i = 1, 2, \dots, p$ ,
$NA = p$ .

10

Example

This example generates values for an autoregressive model given by

x_{t} = 0.4 x_{t - 1} + 0.2 x_{t - 2} + ε_{t}

where

ε_{t}

is a series of independent random Normal perturbations with variance

1.0

. The random number generators are initialized by g05kff and then g05phf is called to initialize a reference vector and generate a sample of ten observations.

NAG Library Routine Document

g05phf (times_arma)

▸▿ Contents

1 Purpose

2 Specification

3 Description

4 References

5 Arguments

6 Error Indicators and Warnings

7 Accuracy

8 Parallelism and Performance

9 Further Comments

10 Example

10.1 Program Text

10.2 Program Data

10.3 Program Results

1

Purpose

2

Specification

3

Description

4

References

5

Arguments

6

Error Indicators and Warnings

7

Accuracy

8

Parallelism and Performance

9

Further Comments

10

Example

10.1

Program Text

10.2

Program Data

10.3

Program Results