I have the following problem I need to use a discrete choice model to determine the time values (VOT) of 3 transport alternatives (car, bus and train). Looking at the literature of the discrete choice models, I logit more precisely and came to the conclusion that I should use a conditional logit given that the specific variables change by mode of transport, but in other bibliographies mention that the conditional logit estimators do not vary by alternative. So I do not know what model to estimate ...
For example (option 1), if I need to estimate $\beta_{0}^{auto},\beta_{time}^{auto},\beta_{cost}^{auto}\beta_{0}^{bus},\beta_{time}^{bus},\beta_{cost}^{bus},\beta_{time}^{train},\beta_{cost}^{train}$, without intercept for train ($\beta_{0}^{train}=0$).
Or for what I need it is better to estimate (opton 2) $\beta_{0}^{auto},\beta_{time}^{auto},\beta_{cost}^{auto}\beta_{0}^{bus},\beta_{time}^{bus},\beta_{cost}^{bus}$ with train as category reference. and my database is in wide format
individual time.auto cost.auto time.bus cost.bus time.train cost.train
1 18.5 1.5 20.86 1.8 30.03 2.35
2 31.3 6.05 67.1 2.23 60.2 1.85
being Pij the probability that the individual i choose the bus mode (for example for option 1):
$P_{ij}=\cfrac{e^{\beta_{0}^{bus}+\beta_{time}^{bus}X_{time}^{bus}+\beta_{cost}^{bus}X_{cost}^{bus}}}{e^{\beta_{0}^{car}+\beta_{time}^{car}X_{time}^{car}+\beta_{cost}^{car}X_{cost}^{car}}+e^{\beta_{0}^{bus}+\beta_{time}^{bus}X_{time}^{bus}+\beta_{cost}^{bus}X_{cost}^{bus}}+e^{\beta_{time}^{train}X_{time}^{train}+\beta_{cost}^{train}X_{cost}^{train}}}$
and the probability fo the option 2 is $P_{ij}=\cfrac{e^{\beta_{0}^{bus}+\beta_{time}^{bus}X_{time}^{bus}+\beta_{cost}^{bus}X_{cost}^{bus}}}{1+e^{\beta_{0}^{car}+\beta_{time}^{car}X_{time}^{car}+\beta_{cost}^{car}X_{cost}^{car}}+e^{\beta_{0}^{bus}+\beta_{time}^{bus}X_{time}^{bus}+\beta_{cost}^{bus}X_{cost}^{bus}}}$
or I'm wrong?
What model and option do you recommend if I need to calculate the time values for the 3 modes of transport?
Thank you!
