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I am trying to calculate the total probability of an investment returning positive after a given number of periods. It's been a while since I've done probability, so I don't really remember it all that well. Am I doing it right? I am getting fairly low numbers.

double totalProbPos = 1;
for (int i = 0; i < maxPeriods; i++) {
    totalProbPos *= (probPos / 100);
totalProbPos = round(totalProbPos);
System.out.println("\nThe probability that your investment will return positive after " + maxPeriods + " periods is: \n    " + totalProbPos + "%.");

Where:maxPeriods, probPos are given by the user.

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Are you sure it isn't *= 1 - probPos / 100.0? You could also just skip the loop and just compute double totalProbPos = (1 - probPos / 100.0) ^ maxPeriods. –  Blender Jan 31 '13 at 20:32
You may give a link to th eformula e.g on wiki –  AlexWien Jan 31 '13 at 20:33
@Blender I just tried Math.pow((1 - probPos / 100), maxPeriods); but now it is even lower. I am testing with probPos = 54; and now I get 0.002004% as a result, which can't be right because When I am running the simulation, I am getting positive a lot more than that many times. –  Xzar Jan 31 '13 at 20:44
@Xzar: I don't know much about how investment deals with probabilities, so you either have to do total = 1 - prob ^ trials or total = 1 - (1 - prob) ^ trials, if I remember correctly. –  Blender Jan 31 '13 at 20:52
@Blender why do you subtract (1 - prob) ^ trials from 1? –  Xzar Jan 31 '13 at 20:54

2 Answers 2

up vote 0 down vote accepted
totalProbPos *= (probPos / 100);

It is better to cast one of the operands to double to avoid integer divison issue (assuming you care about decimal points)

totalProbPos *= ((double)probPos / 100);
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I guess (with the emphasis on "guess") that the way to approach this problem is to try to derive a probability distribution for the return on investment at the end time. Then you just find the probability that the return is greater than zero (i.e., integral from 0 to infinity of the probability density). The probability distribution for return at the end time might be something like a Gaussian (normal) distribution, or it might be a distribution over discrete states, as given by a Markov chain. Maybe the original problem statement has some info which would help one figure out what to do.

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