Mplus VERSION 6
MUTHEN & MUTHEN
04/25/2010  10:58 PM

INPUT INSTRUCTIONS

  Title:

     Model6.inp

  Data:
      file is stationary_oddsratio.dat;

  Variable:
      names are seqnum cpid ratio1 y1 var1 ratio2
          y2 var2;

      usev are y1 y2 x1 x2;

  Define:
      x1 = sqrt(var1);
      x2 = sqrt(var2);

  Analysis:
      type = random;

  Model:

      eta by y1-y2@1;

      eta@0;

      beta1 | y1 on x1;
      beta2 | y2 on x2;

      beta1-beta2@1;
      [beta1-beta2@0];

  Output:
      sampstat tech1 tech8;



INPUT READING TERMINATED NORMALLY





Model6.inp

SUMMARY OF ANALYSIS

Number of groups                                                 1
Number of observations                                         254

Number of dependent variables                                    2
Number of independent variables                                  2
Number of continuous latent variables                            3

Observed dependent variables

  Continuous
   Y1          Y2

Observed independent variables
   X1          X2

Continuous latent variables
   ETA         BETA1       BETA2


Estimator                                                      MLR
Information matrix                                        OBSERVED
Maximum number of iterations                                   100
Convergence criterion                                    0.100D-05
Maximum number of EM iterations                                500
Convergence criteria for the EM algorithm
  Loglikelihood change                                   0.100D-02
  Relative loglikelihood change                          0.100D-05
  Derivative                                             0.100D-03
Minimum variance                                         0.100D-03
Maximum number of steepest descent iterations                   20
Optimization algorithm                                         EMA

Input data file(s)
  stationary_oddsratio.dat
Input data format  FREE


SAMPLE STATISTICS


     ESTIMATED SAMPLE STATISTICS


           Means
              Y1            Y2            X1            X2
              ________      ________      ________      ________
 1              1.415         1.674         1.194         1.225


           Covariances
              Y1            Y2            X1            X2
              ________      ________      ________      ________
 Y1             1.778
 Y2             0.290         1.675
 X1             0.083         0.035         0.234
 X2            -0.050         0.096         0.133         0.257


           Correlations
              Y1            Y2            X1            X2
              ________      ________      ________      ________
 Y1             1.000
 Y2             0.168         1.000
 X1             0.129         0.056         1.000
 X2            -0.073         0.146         0.545         1.000


THE MODEL ESTIMATION TERMINATED NORMALLY



TESTS OF MODEL FIT

Loglikelihood

          H0 Value                        -839.994
          H0 Scaling Correction Factor       0.874
            for MLR

Information Criteria

          Number of Free Parameters              4
          Akaike (AIC)                    1687.989
          Bayesian (BIC)                  1702.138
          Sample-Size Adjusted BIC        1689.457
            (n* = (n + 2) / 24)



MODEL RESULTS

                                                    Two-Tailed
                    Estimate       S.E.  Est./S.E.    P-Value

 ETA      BY
    Y1                 1.000      0.000    999.000    999.000
    Y2                 1.000      0.000    999.000    999.000

 Means
    BETA1              0.000      0.000    999.000    999.000
    BETA2              0.000      0.000    999.000    999.000

 Intercepts
    Y1                 1.324      0.075     17.595      0.000
    Y2                 1.586      0.075     21.221      0.000

 Variances
    ETA                0.000      0.000    999.000    999.000
    BETA1              1.000      0.000    999.000    999.000
    BETA2              1.000      0.000    999.000    999.000

 Residual Variances
    Y1                 0.352      0.098      3.595      0.000
    Y2                 0.331      0.095      3.501      0.000


QUALITY OF NUMERICAL RESULTS

     Condition Number for the Information Matrix              0.256E+00
       (ratio of smallest to largest eigenvalue)


TECHNICAL 1 OUTPUT


     PARAMETER SPECIFICATION


           NU
              Y1            Y2            X1            X2
              ________      ________      ________      ________
 1                  0             0             0             0


           LAMBDA
              ETA           BETA1         BETA2         Y1            Y2
              ________      ________      ________      ________      ________
 Y1                 0             0             0             0             0
 Y2                 0             0             0             0             0
 X1                 0             0             0             0             0
 X2                 0             0             0             0             0


           LAMBDA
              X1            X2
              ________      ________
 Y1                 0             0
 Y2                 0             0
 X1                 0             0
 X2                 0             0


           THETA
              Y1            Y2            X1            X2
              ________      ________      ________      ________
 Y1                 0
 Y2                 0             0
 X1                 0             0             0
 X2                 0             0             0             0


           ALPHA
              ETA           BETA1         BETA2         Y1            Y2
              ________      ________      ________      ________      ________
 1                  0             0             0             1             2


           ALPHA
              X1            X2
              ________      ________
 1                  0             0


           BETA
              ETA           BETA1         BETA2         Y1            Y2
              ________      ________      ________      ________      ________
 ETA                0             0             0             0             0
 BETA1              0             0             0             0             0
 BETA2              0             0             0             0             0
 Y1                 0             0             0             0             0
 Y2                 0             0             0             0             0
 X1                 0             0             0             0             0
 X2                 0             0             0             0             0


           BETA
              X1            X2
              ________      ________
 ETA                0             0
 BETA1              0             0
 BETA2              0             0
 Y1                 0             0
 Y2                 0             0
 X1                 0             0
 X2                 0             0


           PSI
              ETA           BETA1         BETA2         Y1            Y2
              ________      ________      ________      ________      ________
 ETA                0
 BETA1              0             0
 BETA2              0             0             0
 Y1                 0             0             0             3
 Y2                 0             0             0             0             4
 X1                 0             0             0             0             0
 X2                 0             0             0             0             0


           PSI
              X1            X2
              ________      ________
 X1                 0
 X2                 0             0


     STARTING VALUES


           NU
              Y1            Y2            X1            X2
              ________      ________      ________      ________
 1              0.000         0.000         0.000         0.000


           LAMBDA
              ETA           BETA1         BETA2         Y1            Y2
              ________      ________      ________      ________      ________
 Y1             0.000         0.000         0.000         1.000         0.000
 Y2             0.000         0.000         0.000         0.000         1.000
 X1             0.000         0.000         0.000         0.000         0.000
 X2             0.000         0.000         0.000         0.000         0.000


           LAMBDA
              X1            X2
              ________      ________
 Y1             0.000         0.000
 Y2             0.000         0.000
 X1             1.000         0.000
 X2             0.000         1.000


           THETA
              Y1            Y2            X1            X2
              ________      ________      ________      ________
 Y1             0.000
 Y2             0.000         0.000
 X1             0.000         0.000         0.000
 X2             0.000         0.000         0.000         0.000


           ALPHA
              ETA           BETA1         BETA2         Y1            Y2
              ________      ________      ________      ________      ________
 1              0.000         0.000         0.000         1.415         1.674


           ALPHA
              X1            X2
              ________      ________
 1              0.000         0.000


           BETA
              ETA           BETA1         BETA2         Y1            Y2
              ________      ________      ________      ________      ________
 ETA            0.000         0.000         0.000         0.000         0.000
 BETA1          0.000         0.000         0.000         0.000         0.000
 BETA2          0.000         0.000         0.000         0.000         0.000
 Y1             1.000         0.000         0.000         0.000         0.000
 Y2             1.000         0.000         0.000         0.000         0.000
 X1             0.000         0.000         0.000         0.000         0.000
 X2             0.000         0.000         0.000         0.000         0.000


           BETA
              X1            X2
              ________      ________
 ETA            0.000         0.000
 BETA1          0.000         0.000
 BETA2          0.000         0.000
 Y1             0.000         0.000
 Y2             0.000         0.000
 X1             0.000         0.000
 X2             0.000         0.000


           PSI
              ETA           BETA1         BETA2         Y1            Y2
              ________      ________      ________      ________      ________
 ETA            0.000
 BETA1          0.000         1.000
 BETA2          0.000         0.000         1.000
 Y1             0.000         0.000         0.000         0.893
 Y2             0.000         0.000         0.000         0.000         0.841
 X1             0.000         0.000         0.000         0.000         0.000
 X2             0.000         0.000         0.000         0.000         0.000


           PSI
              X1            X2
              ________      ________
 X1             0.117
 X2             0.000         0.129


TECHNICAL 8 OUTPUT


   E STEP  ITER  LOGLIKELIHOOD    ABS CHANGE   REL CHANGE  ALGORITHM
              1 -0.85330835D+03    0.0000000    0.0000000  EM
              2 -0.84902765D+03    4.2806932    0.0050166  EM
              3 -0.84640715D+03    2.6205040    0.0030865  EM
              4 -0.84469559D+03    1.7115583    0.0020221  EM
              5 -0.84352485D+03    1.1707472    0.0013860  EM
              6 -0.84269580D+03    0.8290478    0.0009828  EM
              7 -0.84209268D+03    0.6031204    0.0007157  EM
              8 -0.84164434D+03    0.4483352    0.0005324  EM
              9 -0.84130513D+03    0.3392138    0.0004030  EM
             10 -0.84104467D+03    0.2604571    0.0003096  EM
             11 -0.84084219D+03    0.2024843    0.0002408  EM
             12 -0.84068309D+03    0.1590924    0.0001892  EM
             13 -0.84055695D+03    0.1261491    0.0001501  EM
             14 -0.84045612D+03    0.1008247    0.0001199  EM
             15 -0.84037497D+03    0.0811462    0.0000966  EM
             16 -0.84030927D+03    0.0657092    0.0000782  EM
             17 -0.84025577D+03    0.0534975    0.0000637  EM
             18 -0.84021200D+03    0.0437651    0.0000521  EM
             19 -0.84017605D+03    0.0359570    0.0000428  EM
             20 -0.84014639D+03    0.0296554    0.0000353  EM
             21 -0.84012185D+03    0.0245423    0.0000292  EM
             22 -0.84010147D+03    0.0203741    0.0000243  EM
             23 -0.84008451D+03    0.0169613    0.0000202  EM
             24 -0.84007036D+03    0.0141557    0.0000169  EM
             25 -0.84005852D+03    0.0118413    0.0000141  EM
             26 -0.84004859D+03    0.0099260    0.0000118  EM
             27 -0.84004025D+03    0.0083362    0.0000099  EM
             28 -0.84003324D+03    0.0070131    0.0000083  EM
             29 -0.84002733D+03    0.0059093    0.0000070  EM
             30 -0.84002234D+03    0.0049864    0.0000059  EM
             31 -0.84001813D+03    0.0042131    0.0000050  EM
             32 -0.84001457D+03    0.0035641    0.0000042  EM
             33 -0.84001155D+03    0.0030183    0.0000036  EM
             34 -0.83999774D+03    0.0138110    0.0000164  FS
             35 -0.83999484D+03    0.0028937    0.0000034  FS
             36 -0.83999442D+03    0.0004200    0.0000005  FS
             37 -0.83999435D+03    0.0000755    0.0000001  FS
             38 -0.83999434D+03    0.0000129    0.0000000  FS


     Beginning Time:  22:58:27
        Ending Time:  22:58:27
       Elapsed Time:  00:00:00



MUTHEN & MUTHEN
3463 Stoner Ave.
Los Angeles, CA  90066

Tel: (310) 391-9971
Fax: (310) 391-8971
Web: www.StatModel.com
Support: Support@StatModel.com

Copyright (c) 1998-2010 Muthen & Muthen

Back to table of examples