Therefore, I decided to write the following naive algorithm which is fast enough for my purposes (O(n

^{2}) in time and space, where n is the number of events), and share with everyone:

You can find the code snippet here, sorry for not embedding it in the blog post but blogger is really boring me with snippets having broken layout.

The idea behind the dynamic programming approach starts from this observation:

Let A, B and C be independent non mutually exclusive events. Then:

P(A or B or C) = P(A) + P(B) + P(C) - P(A)P(B) - P(A)P(C) - P(B)P(C) + P(A)P(B)P(C)

Let me simplify the expression using A instead of P(A):

P(A or B or C) = A+B+C - AB - AC - BC + ABC

Notice that AB+AC+BC = A(B+C) + BC. In general:

AB+AC+AD+...+AZ + BC+BD+....+BZ = A(B+C+D+...+Z) + B(C+D+...+Z)

ABC+...+ABZ + ACD+...+ACZ+...+AYZ + BCD+...+BYZ = A(B(C+D+...+Z)+C(D+...+Z)+...+YZ) + B(C(D+...+Z)+...+YZ)

That's exactly where we exploit the dynamic programming to avoid recalculating the same expressions twice.

Edit: My effort was totally useless given that for independent events this is equivalent to 1 - (1 - pA)(1 - pB)..., which can be calculated in linear time. I even used this formula once and forgot about it :-(

## 8 comments:

I believe you can compute this is linear time since

A + B + C + AB + AC + BC + ABC = A(1 + B(1 + C) + C) + B(1 + C) + C

The algorithm looks like this:

double union(double *a, size_t len) {

double x = 0;

for (size_t i = 0; i < len; ++i) {

x += a[i] * (1 + x);

}

return x;

}

it should be A+B+C-AB-AC-BC+ABC (instead of -ABC)... and it's probably easier to think 1-(1-pA)(1-pB)...(1-pN) instead.. the complement of nothing occurring

Ah yes, it should be this:

double union(double *a, size_t len) {

double x = 0;

for (size_t i = 0; i < len; ++i) {

x += a[i] * (1 - x);

}

return x;

}

Thanks! I totally forgot that's equivalent for independent events.

The code seems to be unavailable. Would you mind re-uploading it? It will be a great help to me.

If you read the edit in the post, it's just 1 - (1 - pA)(1 - pB). That's the code itself, if pA and pB are two variables in your program.

The content looks real with valid information. Good Work

vivi winkler

Thanks for sharing!

SRI ANNAPOORNESHAWARI ASTROLOGY CENTER.Best Astrologer In Florida

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