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I'm looking at the 'Upper Confidence Bounds' calculation as it appears in the 'Monte Carlo Tree Search' algorythm and I've hit upon a problem.

log is the natural log.
C is a weight for exploration over exploitation, for example 1.

simple_score = wins / played
UCB = simple_score + C * sqrt(log(parent's visited) / visited)

The issue occurs when played or visited are 0. In this case I still want single, finite and completely defined values.

I'm considering these possibilities for use in the = 0 cases.

simple_score = 0
because the node has never won, although it's never lost either

simple_score = 0.5
because the node's value is completly uncertain and 0.5 is half way

UCB = simple_score + C * sqrt(parent's visited / 1)
UCB = simple_score
UCB = simple_score + C

Does anyone have an answer?

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There is a logarithm missing in your formula (and a constant) –  wildplasser Nov 25 '11 at 15:44
    
In "Ui = vi + c * sqrt((ln N)/ni)" the "ln N" part means logarithm of N? –  alan2here Nov 25 '11 at 15:56
1  
Yes. It is basically a measure of entropy. The sqrt (ln(...))) can be thought of as an estimate for (standard) deviation. The c is the number of stddevs ("confidence") you intend to use as a safety bound/treshold. –  wildplasser Nov 25 '11 at 16:05
    
ty, I've updated the formuli above with this correction. The main question remains. –  alan2here Nov 25 '11 at 16:11
    
There is a paper, claiming that a beta-distribution fits better(gives better confidence intervals) for very small samples, but I cannot not find it. It was published about 3 years ago. BTW, normally they use natural logarithms (though the c could catch the slack) –  wildplasser Nov 25 '11 at 16:18

2 Answers 2

The first step in every bandit algorithm, including MCTS, is to pull every arm once. Since this would obviously result in exhaustive search if you do this at every node, you instead only use MCTS up to a fixed depth and use a roll-out policy for the rest. You can use a prior of course, but then you lose all the nice theoretical properties of the UCB algorithm, primarily logarithmic regret.

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It is all about entropy. Without observations (N=0) the variance is undefined (undetermined), and the confidence bounds are infinite. You can't get information out of nothing.

You might correct by using a prior, or by adding a small correction just to avoid dividing by zero or taking the logarithm of zero. Or by doing a minimal amount of probes. Usually nodes only get expanded once their N reaches some limit (10...100).

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