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Egon

Please don't approve minor or invalid

Egon
Aug 4, 2014 07:24
@bjb568 First to put things straight: I didn't edit any of those. As a reviewer, it's not my job to come up with edits, but rather finding flaws in the edit and the post that aren't addressed.
I agree partially that nothing is perfect and that one way or the other you can always change something. However, changing for the sake of changing is bad. I'd even argue that the improvement you made is a minor one.
Egon
Aug 2, 2014 18:30
I didn't realize this created a tag, so for that I apologize as that is 100% an unwanted effect. I will check for those in the future.
I don't agree however with your interpretation of "too minor" (I agree that the improvements are small, but for every case you show, I CANNOT come up with other significant flaws of the post which would make an edit "too minor" in my book (except that I don't fully agree with edit 4 on formatting, but that's more personal).

I have the impression that my interpretation concurs with the following META: http://meta.stackexchange.com/questions/116565/too-minor-
 

Discussion between Egon Geerardyn and

Imported from a comment discussion on stackoverflow.com/questi...
Egon Geerardyn
Jan 24, 2012 19:30
good luck :)
Egon Geerardyn
Jan 24, 2012 19:30
And my excuses if I'm a bit terse :)
Egon Geerardyn
Jan 24, 2012 19:28
It is indeed interesting to discuss such properties
Egon Geerardyn
Jan 24, 2012 19:28
Sometimes a certain value is known to lie within a certain range (e.g. resistors can have only a positive resistance), but it is often assumed that the resistance of a random resistor is normally distributed.
Egon Geerardyn
Jan 24, 2012 19:27
Well, I think I have some ideas why one might want such a thing.
Egon Geerardyn
Jan 24, 2012 19:27
@Cheery: Indeed cutting the values will change the model. However, for a suited value of sigma (e.g. sigma = (maxVal - minVal)/2 or even lower), the pdf you obtain will be a good approximation of a gaussian on such a limited support. I agree that for the exact purpose, everything depends on the usage
Egon Geerardyn
Jan 24, 2012 19:24
The function you copied from your reference mentions rand, not randn. With randn, it indeed produces samples from a normal distribution with a clumsily specified range (as stated in the manual). But that will NOT prevent from generating negative samples. It is impossible to have both an exact Gaussian and limited support.
Egon Geerardyn
Jan 24, 2012 19:24
Because if x ~ Uniform(a,b) (read: x is uniformly distributed over [a,b]), then c*x ~ Uniform(a*c, a*b) and c + x ~ Uniform(a+c,b+c) for all constants a,b and c. The function rand returns uniformly distributed samples. You can verify this for yourself by generating lots of samples and plotting its histogram. This will be quite a constant empirical pdf, certainly not bell-shaped.
Egon Geerardyn
Jan 24, 2012 19:24
This code will NOT generate normally distributed samples. It will generate uniformly distributed samples over a scaled interval. No distribution with limited support can be a real Gaussian, but that code you cited from your source doesn't even come close.