2018-11-04T13:36:27-08:00 http://mathoverflow.tqft.net/ Lussumo Vanilla & Feed Publisher http://mathoverflow.tqft.net/discussion/1399/what-is-the-probability-distribution-of-reputation-/?Focus=19526#Comment_19526 2012-07-11T04:34:40-07:00 2018-11-04T13:36:27-08:00 Alexander Chervov http://mathoverflow.tqft.net/account/674/

Indeed uniform does not seems to fit, here is reputation of N*35 user (first user on the page http://mathoverflow.net/users?page="put N here").(For uniform "Differences ...

(For uniform "Differences with previous" should be constant).
Ratios are more stable.


page first user Rep Difference with previous Ratio
1 60
2 15.4 44.6 3.896103896
3 10.7 4.7 1.439252336
4 7.5 3.2 1.426666667
5 6 1.5 1.25
6 4.8 1.2 1.25
7 3.9 0.9 1.230769231
8 3.3 0.6 1.181818182
9 2.8 0.5 1.178571429
10 2.5 0.3 1.12
11 2.2 0.3 1.136363636
12 2 0.2 1.1
13 1.8 0.2 1.111111111
14 1.7 0.1 1.058823529


@Alex qubeat Thank you very much.]]> http://mathoverflow.tqft.net/discussion/1399/what-is-the-probability-distribution-of-reputation-/?Focus=19522#Comment_19522 2012-07-09T13:23:28-07:00 2018-11-04T13:36:27-08:00 Alex 'qubeat' http://mathoverflow.tqft.net/account/546/

@Alexander Chervov: zip with plain text with reputations is here http://sdrv.ms/MgYkKX , but I doubt it is uniform, it indeed rather resembles lognormal ... yet I do not have time to apply necessary ...

http://mathoverflow.tqft.net/discussion/1399/what-is-the-probability-distribution-of-reputation-/?Focus=19520#Comment_19520 2012-07-09T10:17:44-07:00 2018-11-04T13:36:27-08:00 Alexander Chervov http://mathoverflow.tqft.net/account/674/

@Alex qubeat. May I ask you to share the data file with reputations?If take users with reputation greater than say 1000, what PDF will we have? My guess is uniform . Is it true?

If take users with reputation greater than say 1000, what PDF will we have? My guess is uniform . Is it true?]]> http://mathoverflow.tqft.net/discussion/1399/what-is-the-probability-distribution-of-reputation-/?Focus=19519#Comment_19519 2012-07-09T04:42:19-07:00 2018-11-04T13:36:27-08:00 Alex 'qubeat' http://mathoverflow.tqft.net/account/546/

@Qiaochu Yuan: I think, the Erlang distribution with k=3 and small rate parameter may display similar behavior http://en.wikipedia.org/wiki/Erlang_distribution - i.e. user stops doing something (e.g. ...

http://mathoverflow.tqft.net/discussion/1399/what-is-the-probability-distribution-of-reputation-/?Focus=19500#Comment_19500 2012-07-07T11:13:35-07:00 2018-11-04T13:36:27-08:00 Will Jagy http://mathoverflow.tqft.net/account/208/

Just about the only thing i remember from "QB VII" is the judge saying "we award the plaintiff one half-penny for his...reputation." The line may have been dubbed ...

http://www.imdb.com/title/tt0071039/

http://www.imdb.com/title/tt0071039/trivia]]> http://mathoverflow.tqft.net/discussion/1399/what-is-the-probability-distribution-of-reputation-/?Focus=19499#Comment_19499 2012-07-07T10:36:42-07:00 2018-11-04T13:36:27-08:00 Alex 'qubeat' http://mathoverflow.tqft.net/account/546/

Log-normal distribution is often used in different areas http://en.wikipedia.org/wiki/Log-normal_distribution and may be justified as an approximation for a parameter that may be described as a ...

http://mathoverflow.tqft.net/discussion/1399/what-is-the-probability-distribution-of-reputation-/?Focus=19497#Comment_19497 2012-07-06T23:28:21-07:00 2018-11-04T13:36:27-08:00 Qiaochu Yuan http://mathoverflow.tqft.net/account/13/

I briefly studied such statistics for other StackExchange sites last summer and the conclusion I came to was that user activity was distributed approximately like a power law with exponent 2. I would ...

I briefly studied such statistics for other StackExchange sites last summer and the conclusion I came to was that user activity was distributed approximately like a power law with exponent 2. I would expect this to be roughly true for reputation as well, at least for reputation gain per unit time.

]]> http://mathoverflow.tqft.net/discussion/1399/what-is-the-probability-distribution-of-reputation-/?Focus=19496#Comment_19496 2012-07-06T13:50:18-07:00 2018-11-04T13:36:27-08:00 Alex 'qubeat' http://mathoverflow.tqft.net/account/546/

More than half users have unit reputation, for other users distribution of log(reputation) is here http://sdrv.ms/NJjezV.

http://mathoverflow.tqft.net/discussion/1399/what-is-the-probability-distribution-of-reputation-/?Focus=19468#Comment_19468 2012-07-03T03:19:20-07:00 2018-11-04T13:36:27-08:00 WillieWong http://mathoverflow.tqft.net/account/288/

Holy cow! I'm the 1%! Unlike a certain Ken Jennings

Holy cow! I'm the 1%! Unlike a certain Ken Jennings

]]> http://mathoverflow.tqft.net/discussion/1399/what-is-the-probability-distribution-of-reputation-/?Focus=19465#Comment_19465 2012-07-03T01:24:31-07:00 2018-11-04T13:36:27-08:00 Alexander Chervov http://mathoverflow.tqft.net/account/674/

Just curiosity. Is it gaussian ? Or we have "heavy tail" (Joel David Hamkins, David Speyer) ?(Probably it is worth to cut down users with very small reputation (<12) we will ...

(Probably it is worth to cut down users with very small reputation (<12) we will rest with 33% of users,
see http://mathoverflow.net/users?page=169 )
Only 4% of users has reputation more than 1000 - see http://mathoverflow.net/users?page=20 )
1% more than 5000 http://mathoverflow.net/users?page=5 )

Probably Guassian is bad idea, may be uniform is better ?
User reputation depends on 1) entrance time 2) "activity/quality" (roughly speaking reputation earned per day).
Probably 2) distributed by Gaussian, but 1) probably uniform - may be the same amount of new users appear every "month".
If 2) is Gaussian with small sigma, and 1) is uniform, then in total we get uniform distribution]]>