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I am writing a piece of software which will basically analyze a data set and should be able to "infer" or "extrapolate" or "predict" when the next event will occur and what the next event is.

In hiring process as an example certain events occur at certain times. At t0 applicant submits form, at t1 HR manager looks at form and does some basic screening, at t2 file gets forwarded to technical screener, etc.. until at tn the applicant gets hired or rejected.

I have a good dataset for a number of "applicants" and their sample times and events it looks like Applicant , date app submitted, date app reviewed by HR , date app reviewed by technical screener, etc..

What i need to do is for a new applicant I want to be able to forcast when the next event will occur.

I have been evaluating a number of alternatives : learning algorithms are awesome but might be an overkill, statistical methods like extrapolation might be relevant but what is challenging is that there is a human factor (human delay) involved in the process so I am not sure which direction to pursue and what relevant libraries to use.

Apache Commons Math seems like a good place to start for the extrapolation piece.

Any ideas?

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closed as off topic by kamaci, Linger, SztupY, S.L. Barth, the Tin Man Jan 9 '13 at 16:18

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The title of this question made me think of: stats.stackexchange.com/questions/6/… –  DuckMaestro Jan 9 '13 at 4:42
    
@DuckMaestro yea. I have been looking at this thread as well. –  Shoukry K Jan 9 '13 at 14:34

2 Answers 2

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Not sure I follow the use of MC in this context. In essence, this whole thing is a challenge of learning distributions. Once the distribution is learned, MC might be useful to answer certain questions given the distribution as input. But if the question is just: what does the distribution of next event times look like for this applicant? then the answer is just the distribution that's been learned, so MC is not necessary.

I think that you need to get your hands dirty and start analyzing your data. So, for instance, for all the t_n times involved, I would compute the mean times. Then I would compute the covariance matrix. This is important; are all the times pretty well independent (which I think mikera is assuming in his answer)? Is there positive, or negative correlation on consecutive steps? On steps that are further apart? Etc. If they're basically independent, your life is relatively easy. You can then estimate each distribution separately. You could use parametric or non parametric methods for this.

If you do get significant relationships between the different distributions... well, then life is complicated. I don't want to get into all the things one could try as it depends on the details and there are many outcomes to cover. I would probably use 2d (adaptive) kernel density estimation in conjunction with Bayesian nets though.

The main thing is, I would work more with the data, get a better sense of it. Then think of a few possible algorithms (possibly by asking here once you have those details; I'm happy to elaborate on anything I wrote). And then think about libraries.

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Your best bet for this kind of thing would be a custom Monte-Carlo simulation.

Basic approach:

  • Use your dataset to create a distribution for the time between each event. You can either fit a statistical distribution (possion? truncated normal?) or you can just use the dataset to build a large set of possible times that you can randomly sample from.
  • Simulate new applicants by randomly sampling the time between events using the distribution above
  • You can now do whatever analysis you like, e.g. run a simulation to work out what % of applications get handled within 3 days, or answer questions like "how much faster would we need to do step 3 if we want applicants to be handled in less than 2 days 95% of the time?"
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