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Old 11-27-2007, 09:56 PM
pzhon pzhon is offline
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Default Random walk on a symmetric interval

I stumbled on an amusing fact about random walks. Does it agree with your intuition?

Suppose you play a freezeout where you and your opponent start with n chips each. You wager a chip at a time, winning with probability p. Claim: Whether you win is independent of the time it takes to complete the freezeout. That is, the conditional probability that you win in t steps does not depend on t (when it makes sense). It's always equal to the probability of winning overall. In particular, the probability of winning is the probability of winning given that the freezezout is over in n steps: p^n / (p^n + (1-p)^n).

The same is true for Brownian motion with drift.

Here is a quick proof for the discrete version: The reflection of any path to victory in t steps is a path to defeat, and vice versa. This bijection changes the probability of a winning path by changing n extra victories to defeats, which multiplies the probability by ((1-p)/p)^n, so the probability of losing is ((1-p)/p)^n times the probability of winning. [img]/images/graemlins/diamond.gif[/img]

The analogous statement is false for asymmetric intervals. If your friend plays a (limit) freezeout against someone, and you see that at some point, your friend is ahead, then you do get some information about the outcome as you wait (without watching).
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Old 11-29-2007, 10:05 AM
starbird starbird is offline
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Default Re: Random walk on a symmetric interval

[img]/images/graemlins/heart.gif[/img] random walk theory.

[ QUOTE ]
The analogous statement is false for asymmetric intervals.

[/ QUOTE ]

This should be clear from the fact that if there are 2n chips, only the leader can win in n steps.
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Old 11-30-2007, 06:45 AM
pzhon pzhon is offline
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Default Re: Random walk on a symmetric interval

[ QUOTE ]

[ QUOTE ]
The analogous statement is false for asymmetric intervals.

[/ QUOTE ]

This should be clear from the fact that if there are 2n chips, only the leader can win in n steps.

[/ QUOTE ]
Right. It's also false in the continuous case, where you can't make an argument like that quite as easily, but you can still show that a nearly instantaneous vistory is much more likely for the player who starts with the larger stack. Qualitatively, how does the conditional probability of winning vary with time?
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