Dummy coding

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Dummy coding

Postby mdann » Fri Nov 07, 2014 4:49 am

Hey,

my questions relatest to Bayesian dummy coding. Can I use the normal distribution with n or is it better to use u...Would it be possible to give me an example for a bayesian dummy syntax?
Let's say Mean is 0.5, standard error of mean is 0.2, SD is 0.3 and standard error of SD is 0.15.

Would it be
b1[(n,0.5,0.3)] or better b1[(u,(u,0.2,0.8)]? or something else?

Thank you in advance!!
Micha
mdann
 
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Re: Dummy coding

Postby Michiel Bliemer » Fri Nov 07, 2014 6:35 am

If I understand correctly, you want to use Bayesian priors for randomly distributed parameters in a dummy coded attribute?

b1.dummy[n,(n,0.5,0.2),(u,0.15,0.45)|...] * A[...

So this means that the random parameter is normally distributed, in which the mean has a normal Bayesian prior and a uniform prior for the standard deviation. I am not sure if this is exactly what you want, you do not provide the details of what you want to estimate. Please note that using random parameters (mixed logit) in conjuction with Bayesian priors will lead to many draws and large calculation times.

Michiel
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Re: Dummy coding

Postby mdann » Fri Nov 07, 2014 7:34 am

Thank you Michiel,

my Question is, if it`s exactly correct to use a normal distribution for dummy coded variables or if I´ve to choose something like:

b1.dummy[u,(u,0.5,0.2),(u,0.15,0.45)|...] * A[...

Regards
Micha
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Re: Dummy coding

Postby Michiel Bliemer » Fri Nov 07, 2014 4:55 pm

You can choose any distribution. For representing a bayesian prior for a standard deviation, it must be guaranteed that it is positive, hence for those specific cases, a bayesian uniform distribution is suitable.
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Re: Dummy coding

Postby mdann » Fri Nov 07, 2014 9:37 pm

So would this be a suitable bayesian syntay?

Design
;alts = alt1,alt2,alt3
;rows= 12
;eff=(rp,d,median)
;rep=50
;rdraws= halton(50)
;model:
U(alt1) = b1[1.04] + pa[-0.07] * A[10,20,30,40] + rf.dummy[-0.28] * B[0,1] + al.dummy[n,(n,-4.66,1.23),(u,3.1,5.86)] * C[0,1] + lf.dummy[-2.69|n,(n,-4.97,1.71),(u,3.06,6.62)|n,(n,-3.48,1.1),(u,1.98,4.16)] * D[1,2,3,4] + ob.dummy[n,(n,-0.48,0.54),(u,0.87,1.79)] * E[0,1] + bz[n,(n,0.2,0.05),(u,0.06,0.11)] * F[5,10,15,20] /
U(alt2) = b1[1.04] + pa * A + rf.dummy * B + al.dummy * C + lf.dummy * D + ob.dummy * E + bz * F $
mdann
 
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Re: Dummy coding

Postby mdann » Sat Nov 08, 2014 10:25 pm

or is this a correcht bayesian sytax?

Design
;alts = alt1,alt2,alt3
;rows = 12
;eff = (rp,d,median)
;rep = 50
;rdraws = halton(100)
;model:
U(alt1) = b1[1.04] + pa[-0.07] * A[10,20,30,40] + rf.dummy[-0.28] * B[0,1] + al.dummy[(u,-9,0.33)] * C[0,1] + lf.dummy[-2.69|(u,-9.82,-0.08)|(u,-6.55,-0.4)] * D[1,2,3,4] + ob.dummy[(u,-1.81,0.85)] * E[0,1] + bz[n,(n,0.2,0.05),(u,0.06,0.11)] * F[5,10,15,20] /
U(alt2) = b1 + pa * A + rf * B + al *C + lf * D + ob * E + bz * F $
mdann
 
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Re: Dummy coding

Postby Michiel Bliemer » Mon Nov 10, 2014 8:08 am

I am unsure what model you would like to estimate. In the first model you state that lf is a random dummy coded parameter to estimate, while in the second syntax lf is a fixed dummy coded parameter, etc. So they are different models. Both use Bayesian priors correctly as far as I can see.
Please note that 100 Halton draws is too little for estimating 5 random coefficients in the first model (think more about 200-500). Note that 50 repetitions is too little for getting stable results (think more about 500-1000). But since you are using an RP model, ;rep will be ignored. Note that you will need to also set the number of bdraws (in the first syntax you have 10 Bayesian priors, therefore you will need a lot of draws, many more than 1000).
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Re: Dummy coding

Postby mdann » Mon Nov 10, 2014 4:39 pm

Thank you.

My problem is, what is the difference between mnl, rp and rppanel? And what is the best to use?
mdann
 
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Re: Dummy coding

Postby Michiel Bliemer » Mon Nov 10, 2014 4:44 pm

MNL is a multinomial logit model, RP is a cross-sectional mixed multinomial logit model, and RPPANEL is a panel mixed multinomial logit model. I will have to refer to you do a standard textbook in discrete choice methods. A great source is the book by Kenneth Train, which you can download from:
http://eml.berkeley.edu/books/choice2.html
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Re: Dummy coding

Postby mdann » Mon Nov 10, 2014 4:49 pm

Thank you!!!!
mdann
 
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