Often, it is not realistic to assume that the random components of utility for all choices are independent. This example shows the solution to the problem of correlated random components by using multinomial probit and nested logit.
To analyze correlated data, trinomial choice data (1,000 observations) are created using a pseudo-random number generator by using the following statements. The random utility function is
where
/*-- generate simulated series --*/ %let ndim = 3; %let nobs = 1000; data trichoice; array error{&ndim} e1-e3; array vtemp{&ndim} _temporary_; array lm{6} _temporary_ (1.4142136 0.4242641 1 0 0 1); retain nseed 345678; do id = 1 to &nobs; index = 0; /* generate independent normal variate */ do i = 1 to &ndim; /* index of diagonal element */ vtemp{i} = rannor(nseed); end; /* get multivariate normal variate */ index = 0; do i = 1 to &ndim; error{i} = 0; do j = 1 to i; error{i} = error{i} + lm{index+j}*vtemp{j}; end; index = index + i; end; x1 = 1.0 + 2.0 * ranuni(nseed); x2 = 1.2 + 2.0 * ranuni(nseed); x3 = 1.5 + 1.2 * ranuni(nseed); util1 = 2.0 * x1 + e1; util2 = 2.0 * x2 + e2; util3 = 2.0 * x3 + e3; do i = 1 to &ndim; vtemp{i} = 0; end; if ( util1 > util2 & util1 > util3 ) then vtemp{1} = 1; else if ( util2 > util1 & util2 > util3 ) then vtemp{2} = 1; else if ( util3 > util1 & util3 > util2 ) then vtemp{3} = 1; else continue; /*-- first choice --*/ x = x1; mode = 1; decision = vtemp{1}; output; /*-- second choice --*/ x = x2; mode = 2; decision = vtemp{2}; output; /*-- third choice --*/ x = x3; mode = 3; decision = vtemp{3}; output; end; run;
First, the multinomial probit model is estimated (see the following statements). Results show that the standard deviation,
correlation, and slope estimates are close to the parameter values. Note that , , , and the parameter value for the variable x
is 2.0. (See Output 25.3.1.)
/*-- Trinomial Probit --*/ proc mdc data=trichoice randnum=halton nsimul=100; model decision = x / type=mprobit choice=(mode 1 2 3) covest=op optmethod=qn; id id; run;
Output 25.3.1: Trinomial Probit Model Estimation
Figure 25.29 shows a two-level decision tree.
Figure 25.29: Nested Tree Structure
The following statements estimate the nested model shown in Figure 25.29:
/*-- Two-Level Nested Logit --*/ proc mdc data=trichoice; model decision = x / type=nlogit choice=(mode 1 2 3) covest=op optmethod=qn; id id; utility u(1,) = x; nest level(1) = (1 2 @ 1, 3 @ 2), level(2) = (1 2 @ 1); run;
The estimated result (see Output 25.3.2) shows that the data support the nested tree model since the estimates of the inclusive value parameters are significant and are less than 1.
Output 25.3.2: Two-Level Nested Logit