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 The AUTOREG Procedure

## Example 8.5: Money Demand Model

The following example estimates the log-log money demand equation using the maximum likelihood method. The money demand model contains four explanatory variables. The lagged nominal money stock M1 is divided by the current price level GDF to calculate a new variable M1CP since the money stock is assumed to follow the partial adjustment process. The variable M1CP is then used to estimate the coefficient of adjustment. All variables are transformed using the natural logarithm with a DATA step. Refer to Balke and Gordon (1986) for data description.

The first eight observations are printed using the PRINT procedure and are shown in Output 8.5.1. Note that the first observation of the variables M1CP and INFR are missing. Therefore, the money demand equation is estimated for the period 1968:2 to 1983:4 since PROC AUTOREG ignores the first missing observation.

```
data money;
date = intnx( 'qtr', '01jan1968'd, _n_-1 );
format date yyqc6.;
input m1 gnp gdf ycb @@;
m = log( 100 * m1 / gdf );
m1cp = log( 100 * lag(m1) / gdf );
y = log( gnp );
intr = log( ycb );
infr = 100 * log( gdf / lag(gdf) );
label m    = 'Real Money Stock (M1)'
m1cp = 'Lagged M1/Current GDF'
y    = 'Real GNP'
intr = 'Yield on Corporate Bonds'
infr = 'Rate of Prices Changes';
datalines;
;
```

Output 8.5.1: Money Demand Data Series -- First 8 Observations

 Obs date m1 gnp gdf ycb m m1cp y intr infr 1 1968:1 187.15 1036.22 81.18 6.84 5.44041 . 6.94333 1.92279 . 2 1968:2 190.63 1056.02 82.12 6.97 5.44732 5.42890 6.96226 1.94162 1.15127 3 1968:3 194.30 1068.72 82.80 6.98 5.45815 5.43908 6.97422 1.94305 0.82465 4 1968:4 198.55 1071.28 84.04 6.84 5.46492 5.44328 6.97661 1.92279 1.48648 5 1969:1 201.73 1084.15 84.97 7.32 5.46980 5.45391 6.98855 1.99061 1.10054 6 1969:2 203.18 1088.73 86.10 7.54 5.46375 5.45659 6.99277 2.02022 1.32112 7 1969:3 204.18 1091.90 87.49 7.70 5.45265 5.44774 6.99567 2.04122 1.60151 8 1969:4 206.10 1085.53 88.62 8.22 5.44917 5.43981 6.98982 2.10657 1.28331

The money demand equation is first estimated using OLS. The DW=4 option produces generalized Durbin-Watson statistics up to the fourth order. Their exact marginal probabilities (p-values) are also calculated with the DWPROB option. The Durbin-Watson test indicates positive first-order autocorrelation at, say, the 10% confidence level. You can use the Durbin-Watson table, which is available only for 1% and 5% significance points. The relevant upper ( dU) and lower ( dL) bounds are dU=1.731 and dL=1.471, respectively, at 5% significance level. However, the bounds test is inconvenient since sometimes you may get the statistic in the inconclusive region while the interval between the upper and lower bounds becomes smaller with the increasing sample size.

```
title 'Partial Adjustment Money Demand Equation';
title2 'Quarterly Data - 1968:2 to 1983:4';

proc autoreg data=money outest=est covout;
model m = m1cp y intr infr / dw=4 dwprob;
run;
```

Output 8.5.2: OLS Estimation of the Partial Adjustment Money Demand Equation

 Partial Adjustment Money Demand Equation Quarterly Data - 1968:2 to 1983:4

 The AUTOREG Procedure

 Dependent Variable m Real Money Stock (M1)

 Ordinary Least Squares Estimates SSE 0.00271902 DFE 58 MSE 0.0000469 Root MSE 0.00685 SBC -433.68709 AIC -444.40276 Regress R-Square 0.9546 Total R-Square 0.9546

 Durbin-Watson Statistics Order DW Pr < DW Pr > DW 1 1.7355 0.0607 0.9393 2 2.1058 0.5519 0.4481 3 2.0286 0.5002 0.4998 4 2.2835 0.8880 0.1120

 Variable DF Estimate Standard Error t Value ApproxPr > |t| Variable Label Intercept 1 0.3084 0.2359 1.31 0.1963 m1cp 1 0.8952 0.0439 20.38 <.0001 Lagged M1/Current GDF y 1 0.0476 0.0122 3.89 0.0003 Real GNP intr 1 -0.0238 0.007933 -3.00 0.0040 Yield on Corporate Bonds infr 1 -0.005646 0.001584 -3.56 0.0007 Rate of Prices Changes

The autoregressive model is estimated using the maximum likelihood method. Though the Durbin-Watson test statistic is calculated after correcting the autocorrelation, it should be used with care since the test based on this statistic is not justified theoretically.

```
proc autoreg data=money;
model m = m1cp y intr infr / nlag=1 method=ml maxit=50;
output out=a p=p pm=pm r=r rm=rm ucl=ucl lcl=lcl
uclm=uclm lclm=lclm;
run;

proc print data=a(obs=8);
var p pm r rm ucl lcl uclm lclm;
run;
```

A difference is shown between the OLS estimates in Output 8.5.2 and the AR(1)-ML estimates in Output 8.5.3. The estimated autocorrelation coefficient is significantly negative (-0.88345). Note that the negative coefficient of A(1) should be interpreted as a positive autocorrelation.

Two predicted values are produced dash predicted values computed for the structural model and predicted values computed for the full model. The full model includes both the structural and error-process parts. The predicted values and residuals are stored in the output data set A, as are the upper and lower 95% confidence limits for the predicted values. Part of the data set A is shown in Output 8.5.4. The first observation is missing since the explanatory variables, M1CP and INFR, are missing for the corresponding observation.

Output 8.5.3: Estimated Partial Adjustment Money Demand Equation

 Partial Adjustment Money Demand Equation Quarterly Data - 1968:2 to 1983:4

 The AUTOREG Procedure

 Estimates of Autoregressive Parameters Lag Coefficient Standard Error t Value 1 -0.126273 0.131393 -0.96

 Algorithm converged.

 Maximum Likelihood Estimates SSE 0.00226719 DFE 57 MSE 0.0000398 Root MSE 0.00631 SBC -439.47665 AIC -452.33545 Regress R-Square 0.6954 Total R-Square 0.9621 Durbin-Watson 2.1778

 Variable DF Estimate Standard Error t Value ApproxPr > |t| Variable Label Intercept 1 2.4121 0.4880 4.94 <.0001 m1cp 1 0.4086 0.0908 4.50 <.0001 Lagged M1/Current GDF y 1 0.1509 0.0411 3.67 0.0005 Real GNP intr 1 -0.1101 0.0159 -6.92 <.0001 Yield on Corporate Bonds infr 1 -0.006348 0.001834 -3.46 0.0010 Rate of Prices Changes AR1 1 -0.8835 0.0686 -12.89 <.0001

 Autoregressive parameters assumed given. Variable DF Estimate Standard Error t Value ApproxPr > |t| Variable Label Intercept 1 2.4121 0.4685 5.15 <.0001 m1cp 1 0.4086 0.0840 4.87 <.0001 Lagged M1/Current GDF y 1 0.1509 0.0402 3.75 0.0004 Real GNP intr 1 -0.1101 0.0155 -7.08 <.0001 Yield on Corporate Bonds infr 1 -0.006348 0.001828 -3.47 0.0010 Rate of Prices Changes

Output 8.5.4: Partial List of the Predicted Values

 Obs p pm r rm ucl lcl uclm lclm 1 . . . . . . . . 2 5.45962 5.45962 -.005763043 -0.012301 5.49319 5.42606 5.47962 5.43962 3 5.45663 5.46750 0.001511258 -0.009356 5.47987 5.43340 5.48700 5.44800 4 5.45934 5.46761 0.005574104 -0.002691 5.48267 5.43601 5.48723 5.44799 5 5.46636 5.46874 0.003442075 0.001064 5.48903 5.44369 5.48757 5.44991 6 5.46675 5.46581 -.002994443 -0.002054 5.48925 5.44424 5.48444 5.44718 7 5.45672 5.45854 -.004074196 -0.005889 5.47882 5.43462 5.47667 5.44040 8 5.44404 5.44924 0.005136019 -0.000066 5.46604 5.42203 5.46726 5.43122

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