The MODEL Procedure |
This example shows the use of the %PDL macro for polynomial distributed lag models. Simulated data is generated so that Y is a linear function of six lags of X, with the lag coefficients following a quadratic polynomial. The model is estimated by using a fourth-degree polynomial, both with and without endpoint constraints. The example uses simulated data generated from the following model:
The LIST option prints the model statements added by the %PDL macro. The following statements generate simulated data as shown:
/*--------------------------------------------------------------*/ /* Generate Simulated Data for a Linear Model with a PDL on X */ /* y = 10 + x(6,2) + e */ /* pdl(x) = -5.*(lg)**2 + 1.5*(lg) + 0. */ /*--------------------------------------------------------------*/ data pdl; pdl2=-5.; pdl1=1.5; pdl0=0; array zz(i) z0-z6; do i=1 to 7; z=i-1; zz=pdl2*z**2 + pdl1*z + pdl0; end; do n=-11 to 30; x =10*ranuni(1234567)-5; pdl=z0*x + z1*xl1 + z2*xl2 + z3*xl3 + z4*xl4 + z5*xl5 + z6*xl6; e =10*rannor(1234567); y =10+pdl+e; if n>=1 then output; xl6=xl5; xl5=xl4; xl4=xl3; xl3=xl2; xl2=xl1; xl1=x; end; run;
title1 'Polynomial Distributed Lag Example'; title3 'Estimation of PDL(6,4) Model-- No Endpoint Restrictions'; proc model data=pdl; parms int; /* declare the intercept parameter */ %pdl( xpdl, 6, 4 ) /* declare the lag distribution */ y = int + %pdl( xpdl, x ); /* define the model equation */ fit y / list; /* estimate the parameters */ run;
The LIST output for the model without endpoint restrictions is shown in Output 18.5.1. The first seven statements in the generated program are the polynomial expressions for lag parameters XPDL_L0 through XPDL_L6. The estimated parameters are INT, XPDL_0, XPDL_1, XPDL_2, XPDL_3, and XPDL_4.
Listing of Compiled Program Code | ||
---|---|---|
Stmt | Line:Col | Statement as Parsed |
1 | 4370:14 | XPDL_L0 = XPDL_0; |
2 | 4370:14 | XPDL_L1 = XPDL_0 + XPDL_1 + XPDL_2 + XPDL_3 + XPDL_4; |
3 | 4370:14 | XPDL_L2 = XPDL_0 + XPDL_1 * 2 + XPDL_2 * 2 ** 2 + XPDL_3 * 2 ** 3 + XPDL_4 * 2 ** 4; |
4 | 4370:14 | XPDL_L3 = XPDL_0 + XPDL_1 * 3 + XPDL_2 * 3 ** 2 + XPDL_3 * 3 ** 3 + XPDL_4 * 3 ** 4; |
5 | 4370:14 | XPDL_L4 = XPDL_0 + XPDL_1 * 4 + XPDL_2 * 4 ** 2 + XPDL_3 * 4 ** 3 + XPDL_4 * 4 ** 4; |
6 | 4370:14 | XPDL_L5 = XPDL_0 + XPDL_1 * 5 + XPDL_2 * 5 ** 2 + XPDL_3 * 5 ** 3 + XPDL_4 * 5 ** 4; |
7 | 4370:14 | XPDL_L6 = XPDL_0 + XPDL_1 * 6 + XPDL_2 * 6 ** 2 + XPDL_3 * 6 ** 3 + XPDL_4 * 6 ** 4; |
8 | 4371:4 | PRED.y = int + XPDL_L0 * x + XPDL_L1 * LAG1( x ) + XPDL_L2 * LAG2( x ) + XPDL_L3 * LAG3( x ) + XPDL_L4 * LAG4( x ) + XPDL_L5 * LAG5( x ) + XPDL_L6 * LAG6( x ); |
8 | 4371:4 | RESID.y = PRED.y - ACTUAL.y; |
8 | 4371:4 | ERROR.y = PRED.y - y; |
9 | 4370:15 | ESTIMATE XPDL_L0, XPDL_L1, XPDL_L2, XPDL_L3, XPDL_L4, XPDL_L5, XPDL_L6; |
10 | 4370:15 | _est0 = XPDL_L0; |
11 | 4370:15 | _est1 = XPDL_L1; |
12 | 4370:15 | _est2 = XPDL_L2; |
13 | 4370:15 | _est3 = XPDL_L3; |
14 | 4370:15 | _est4 = XPDL_L4; |
15 | 4370:15 | _est5 = XPDL_L5; |
16 | 4370:14 | _est6 = XPDL_L6; |
Polynomial Distributed Lag Example |
Estimation of PDL(6,4) Model-- No Endpoint Restrictions |
Nonlinear OLS Summary of Residual Errors | |||||||
---|---|---|---|---|---|---|---|
Equation | DF Model | DF Error | SSE | MSE | Root MSE | R-Square | Adj R-Sq |
y | 6 | 18 | 2070.8 | 115.0 | 10.7259 | 0.9998 | 0.9998 |
Nonlinear OLS Parameter Estimates | |||||
---|---|---|---|---|---|
Parameter | Estimate | Approx Std Err | t Value | Approx Pr > |t| |
Label |
int | 9.621969 | 2.3238 | 4.14 | 0.0006 | |
XPDL_0 | 0.084374 | 0.7587 | 0.11 | 0.9127 | PDL(XPDL,6,4) parameter for (L)**0 |
XPDL_1 | 0.749956 | 2.0936 | 0.36 | 0.7244 | PDL(XPDL,6,4) parameter for (L)**1 |
XPDL_2 | -4.196 | 1.6215 | -2.59 | 0.0186 | PDL(XPDL,6,4) parameter for (L)**2 |
XPDL_3 | -0.21489 | 0.4253 | -0.51 | 0.6195 | PDL(XPDL,6,4) parameter for (L)**3 |
XPDL_4 | 0.016133 | 0.0353 | 0.46 | 0.6528 | PDL(XPDL,6,4) parameter for (L)**4 |
Portions of the output produced by the following PDL model with endpoints of the model restricted to zero are presented in Output 18.5.3.
title3 'Estimation of PDL(6,4) Model-- Both Endpoint Restrictions'; proc model data=pdl ; parms int; /* declare the intercept parameter */ %pdl( xpdl, 6, 4, r=both ) /* declare the lag distribution */ y = int + %pdl( xpdl, x ); /* define the model equation */ fit y /list; /* estimate the parameters */ run;
Nonlinear OLS Summary of Residual Errors | |||||||
---|---|---|---|---|---|---|---|
Equation | DF Model | DF Error | SSE | MSE | Root MSE | R-Square | Adj R-Sq |
y | 4 | 20 | 449868 | 22493.4 | 150.0 | 0.9596 | 0.9535 |
Nonlinear OLS Parameter Estimates | |||||
---|---|---|---|---|---|
Parameter | Estimate | Approx Std Err | t Value | Approx Pr > |t| |
Label |
int | 17.08581 | 32.4032 | 0.53 | 0.6038 | |
XPDL_2 | 13.88433 | 5.4361 | 2.55 | 0.0189 | PDL(XPDL,6,4) parameter for (L)**2 |
XPDL_3 | -9.3535 | 1.7602 | -5.31 | <.0001 | PDL(XPDL,6,4) parameter for (L)**3 |
XPDL_4 | 1.032421 | 0.1471 | 7.02 | <.0001 | PDL(XPDL,6,4) parameter for (L)**4 |
Note that XPDL_0 and XPDL_1 are not shown in the estimate summary. They were used to satisfy the endpoint restrictions analytically by the generated %PDL macro code. Their values can be determined by back substitution.
To estimate the PDL model with one or more of the polynomial terms dropped, specify the largest degree of the polynomial desired with the %PDL macro and use the DROP= option in the FIT statement to remove the unwanted terms. The dropped parameters should be set to 0. The following PROC MODEL statements demonstrate estimation with a PDL of degree 2 without the 0th order term.
title3 'Estimation of PDL(6,2) Model-- With XPDL_0 Dropped'; proc model data=pdl list; parms int; /* declare the intercept parameter */ %pdl( xpdl, 6, 2 ) /* declare the lag distribution */ y = int + %pdl( xpdl, x ); /* define the model equation */ xpdl_0 =0; fit y drop=xpdl_0; /* estimate the parameters */ run;
The results from this estimation are shown in Output 18.5.4.
Nonlinear OLS Summary of Residual Errors | |||||||
---|---|---|---|---|---|---|---|
Equation | DF Model | DF Error | SSE | MSE | Root MSE | R-Square | Adj R-Sq |
y | 3 | 21 | 2114.1 | 100.7 | 10.0335 | 0.9998 | 0.9998 |
Nonlinear OLS Parameter Estimates | |||||
---|---|---|---|---|---|
Parameter | Estimate | Approx Std Err | t Value | Approx Pr > |t| |
Label |
int | 9.536382 | 2.1685 | 4.40 | 0.0003 | |
XPDL_1 | 1.883315 | 0.3159 | 5.96 | <.0001 | PDL(XPDL,6,2) parameter for (L)**1 |
XPDL_2 | -5.08827 | 0.0656 | -77.56 | <.0001 | PDL(XPDL,6,2) parameter for (L)**2 |
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