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We study the competition complexity of dynamic pricing relative to the optimal auction in the fundamental single-item setting. In prophet inequality terminology, we compare the expected reward Formula: see text achievable by the optimal online policy on m independent and identically distributed (i.i.d.) random variables distributed according to F to the expected maximum Formula: see text of n i.i.d. draws from F. We ask how big m has to be to ensure that Formula: see text for all F. We resolve this question and characterize the competition complexity as a function of ε. When Formula: see text, the competition complexity is unbounded. That is, for any n and m there is a distribution F such that Formula: see text. In contrast, for any Formula: see text, it is sufficient and necessary to have Formula: see text, where Formula: see text. Therefore, the competition complexity not only drops from unbounded to linear, it is actually linear with a very small constant. The technical core of our analysis is a lossless reduction to an infinite dimensional and nonlinear optimization problem that we solve optimally. A corollary of this reduction is a novel proof of the factor Formula: see text i.i.d. prophet inequality, which simultaneously establishes matching upper and lower bounds. Funding: This work was supported by ANID (Anillo ICMD) Grant ACT210005 and the Center for Mathematical Modeling Grant FB210005.
Brustle et al. (Thu,) studied this question.
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