lognpdf drawn by parameters from lognfit doenst fit data at all
4 visualizzazioni (ultimi 30 giorni)
Mostra commenti meno recenti
Marc Laub
il 18 Gen 2019
Commentato: Marc Laub
il 19 Gen 2019
Hey guys,
I got a problem fitting my data. So the data should be describable by a log normal distribution. Somehow the lognpdf i plot with lognpdf(X,parmhat(1),parmhat(2)) totaly fails somehow and i cant figure out why. I get why better results by roughly playing with mµ and sigma in the lognpdf then hoping for lognfit to fit my data.
So in the picture below are my data point plotted with bar. I also tried to get the logn to fit the data by trying different binnings (second one), but that didnt help either.
The Data are given in the attachment. Column one are the X positions of the data points, column 2 are the absolut values of my data and column 3 are the relativ values (as plottet). The lognpdf i get with :
[parmhat,parmci] = lognfit(Bindistd(:,3),0.01); %% alternativ Bindistd(:,2)
X=Bindistd(:,1);
Y = lognpdf(X,parmhat(1),parmhat(2));
plot(X,Y)
is totaly wrong. As i said i tried different binnings since i thought that the missfit comes from the first local max in the data at about 2 but that didnt work. i know that 3 as parmhat(1) und 0.6 as 2 looks fine for the naked eye, i just wonder how it is possible to get about these values by the lognfit function.
Maybe my mistake is a very simple one, either way i cant find it, maybe one of you can help me with.
Thanks in advance.
Regard
0 Commenti
Risposta accettata
John D'Errico
il 18 Gen 2019
Modificato: John D'Errico
il 18 Gen 2019
Look carefully at your data! always do this when you have a problem. Then think about what you see.
Bindistd(:,3)
ans =
0.00327868852459016
0.0229508196721311
0.019672131147541
0.00983606557377049
0.00655737704918033
0.00655737704918033
0.0131147540983607
0.0163934426229508
0.00327868852459016
0.0131147540983607
0.0295081967213115
0.0327868852459016
0.0262295081967213
0.039344262295082
0.0295081967213115
0.0262295081967213
0.0229508196721311
0.0295081967213115
0.00983606557377049
0.0229508196721311
0.0229508196721311
0.0360655737704918
0.0360655737704918
0.039344262295082
0.019672131147541
0.0426229508196721
0.0131147540983607
0.0327868852459016
0.0295081967213115
0.0426229508196721
0.019672131147541
0.019672131147541
0.00655737704918033
0.00983606557377049
0.019672131147541
0.0229508196721311
0.0131147540983607
0.019672131147541
0.00655737704918033
0.019672131147541
0.00983606557377049
0.00655737704918033
0.00983606557377049
0.0131147540983607
0.0163934426229508
0.00655737704918033
0.00983606557377049
3.27868852459016e-23
0.00327868852459016
0.00655737704918033
0.00327868852459016
3.27868852459016e-23
0.00327868852459016
0.00983606557377049
0.00655737704918033
3.27868852459016e-23
0.00327868852459016
0.00983606557377049
0.00327868852459016
3.27868852459016e-23
3.27868852459016e-23
0.00327868852459016
0.00327868852459016
3.27868852459016e-23
0.00327868852459016
3.27868852459016e-23
3.27868852459016e-23
0.00655737704918033
3.27868852459016e-23
3.27868852459016e-23
3.27868852459016e-23
3.27868852459016e-23
3.27868852459016e-23
3.27868852459016e-23
3.27868852459016e-23
0.00327868852459016
3.27868852459016e-23
3.27868852459016e-23
3.27868852459016e-23
3.27868852459016e-23
3.27868852459016e-23
3.27868852459016e-23
3.27868852459016e-23
3.27868852459016e-23
0.00327868852459016
Do you see all of those replicate values at 3.27868852459016e-23?
Infact, out of 85 data points,
sum(Bindistd(:,3) == Bindistd(end-1,3))
ans =
23
23 of them are the same garbage value.
I'm sorry, but this set of data does NOT follow a lognormal distribution. You can want it to do so. Hey, I want a lot of things, things that simply won't happen.
3 Commenti
John D'Errico
il 19 Gen 2019
If they are truly zeros, then this is not a lognormal distribution.
If they are all constant values, then this is not a lognormal distribution.
Your distribution is simply not lognormal. Trying to jam a square plug into a round hole tends not to work very well. PERIOD.
So lets consider what distribution your data MIGHT be from. It AIN'T Lognormal. (If I say it three times, then it must be so.)
B = Bindistd(:,3);
hist(B,50)
Does that look even remotely like a lognormal distribution? (No.) In fact, it looks more like a quantized exponential distribution.
Here, k will tell us where the garbage is, so we can remove it.
k = B == B(end-1);
Now, if your data does follow a lognormal distribution, then if I take the log of your data, it will look roughly normal.
hist(log(B(~k)),10)
Sorry. But not even close. Although if it was exponentially distributed, that histogram would have looked uniform. In fact, that is exactly what it looks like, more than anything else. The bins on the left are higher due to some quantization that went on in your data collection step, I might claim.
But no matter how hard you try, trying to stuff this into a lognormal is a waste of CPU cycles.
Più risposte (0)
Vedere anche
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!