--- imach096d/doc/imach.htm 2002/03/11 22:26:00 1.10 +++ imach096d/doc/imach.htm 2002/03/11 22:52:27 1.11 @@ -1,4 +1,4 @@ - + @@ -477,20 +477,13 @@ matrix of the parameters, that is the in matrix, and the variances of health expectancies. Each line consists in indices "ij" followed by the initial scales (zero to simplify) associated with aij and bij.

- - - -
-
# Scales (for hessian or gradient estimation)
+
-

Once we obtained the estimated parameters, the program is able +
Once we obtained the estimated parameters, the program is able to calculated stationary prevalence, transitions probabilities and life expectancies at any age. Choice of age range is useful for extrapolation. In our data file, ages varies from age 70 to 102. It is possible to get extrapolated stationary prevalence by -age ranging from agemin to agemax.

+age ranging from agemin to agemax. -

Setting bage=50 (begin age) and fage=100 (final age), makes +
Setting bage=50 (begin age) and fage=100 (final age), makes the program computing life expectancy from age 'bage' to age 'fage'. As we use a model, we can interessingly compute life expectancy on a wider age range than the age range from the data. But the model can be rather wrong on much larger intervals. -Program is limited to around 120 for upper age!

- +Program is limited to around 120 for upper age!