Guessing Strategies for Shuffling Machines
classification
🧮 math.PR
math.CO
keywords
guessingprovestrategycaseexpectedno-feedbackoptimalreward
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We investigate a one-time single shelf shuffle by establishing the position matrix explicitly. In some cases, we prove a no-feedback optimal guessing strategy. A general no-feedback strategy is conjectured, and asymptotics for the expected reward are given. For the complete-feedback case, we give a guessing strategy, prove that it is optimal and unique, and find the expected reward. Our results prove a conjecture of Diaconis, Fulman, and Holmes in a special case.
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Forward citations
Cited by 1 Pith paper
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Analysis of the asymmetric shelf shuffle
Extends shelf shuffle analysis from p=1/2 to general p, deriving distributions for cycles, descents, inversions, valleys and RSK shapes.
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