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I want to simulate a (very long) bus route where the buses get spread out randomly over the route over time but have a mean time between bus arrivals at my bus stop of exactly 20 minutes. To do this, I create a linear strip of time, 20 million minutes, and scatter one million buses randomly on that interval. I just multiply the output of a standard random float generator (uniform distribution over interval [0,1) ) by 20 million to generate one million arrival times randomly scattered over 20 million minutes with all points on the timeline equally likely. That way, all the times between a million bus arrivals add up to the full length 20 million minutes, averaging a twenty minute wait between buses.

What I'm wondering is if this simple procedure creates a poisson process for bus arrivals. Or would this be some other process? What would the resulting process parameters be? Would someone with a better knowledge of statistics than mine mind telling me about the statistical process that results from such a simple uniformly distributed scattering of events on a timeline? It's an easy programming technique to use, so I'd like to make sure I'm not misunderstanding it.


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Just to be clear, when you say "poisson process for bus arrivals", are you talking about waiting times or about something else? – NPE Dec 16 '12 at 8:30
Is there a programming question in here? If not, I suggest we move this to crossvalidated.com. – Roman Luštrik Dec 16 '12 at 9:52
@NPE: a programming technique for generating events at random times that could be used to drive a simulation (hits on a website), or measured for greatest number of hits/second during clusters, or calculating statistics on the waiting times between events, or whatever. – Glen Dec 16 '12 at 10:18
@Roman: This is a programming algorithm, useless anywhere except within a program and an apparently simpler approach than calling a stats library. – Glen Dec 16 '12 at 10:27
up vote 1 down vote accepted

Well, there are two sides to this:

  • If you take the limit of infinite minutes and infinite buses then yes, you do have the poisson process

  • the process you describe is close to but not quite the poisson process, because there is a little bit of bias because of the limited number of buses causes some "memory" in the process.

However, why would you want to use such a process to approximate the poisson distribution when you could just generate exponential deviates by using e.g. gsl (http://www.gnu.org/software/gsl/) to get the deviates directly?

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Because this is an algorithm for a sixth grader with two months of programming experience trying to answer a question by means of computer simulation (in Python) for his first science fair project. I want to lead him to discover this algorithm for himself and he'll need to explain his approach to judges. It has to be as intuitive an algorithm as possible yet correct. He'll make the timeline very long. He'll also reuse it for more exploration afterward. He'll "discover" linear and binary search, too. It will be some time before he'll discover exponential deviates and be ready for GNU libraries. – Glen Dec 16 '12 at 10:55
Ah, excellent :) Good luck to the sixth grader. – user1816548 Dec 16 '12 at 10:57

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