Jinzhi Bu scite author profile

This paper investigates the impact of pre-existing offline data on online learning, in the context of dynamic pricing. We study a single-product dynamic pricing problem over a selling horizon of T periods. The demand in each period is determined by the price of the product according to a linear demand model with unknown parameters. We assume that the seller already has some pre-existing offline data before the start of the selling horizon. The offline data set contains n samples, each of which is an input-output pair consists of a historical price and an associated demand observation. The seller wants to utilize both the pre-existing offline data and the sequential online data to minimize the regret of the online learning process.We characterize the joint effect of the size, location and dispersion of offline data on the optimal regret of the online learning process. Specifically, the size, location and dispersion of offline data are measured by the number of historical samples n, the absolute difference between the average historical price and the optimal price δ, and the standard deviation of the historical prices σ, respectively. For the singlehistorical-price setting where the n historical prices are the same, we prove that the best achievable regret. For the (more general) multiple-historical-price setting where the historical prices can be different, we show that the best achievable regret isΘ √ T ∧ T nσ 2 +(n∧T )δ 2 . For both settings, we design a learning algorithm based on the "optimism in the face of uncertainty" principle, whose regret is optimal up to a logarithmic factor. Our results reveal surprising transformations of the optimal regret rate with respect to the size of offline data, which we refer to as phase transitions. In addition, our results demonstrate that the location and dispersion of the offline data set also have an intrinsic effect on the optimal regret, and we quantify this effect via the inverse-square law.

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Technical Note—Constant-Order Policies for Lost-Sales Inventory Models with Random Supply Functions: Asymptotics and Heuristic

Gong

Yao

2020

Operations Research

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Asymptotic Optimality of Base-Stock Policies for Perishable Inventory Systems

Gong

Chao

2020

SSRN Journal

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Online Pricing with Offline Data: Phase Transition and Inverse Square Law

Simchi‐Levi

2022

Management Science

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This paper investigates the impact of pre-existing offline data on online learning in the context of dynamic pricing. We study a single-product dynamic pricing problem over a selling horizon of T periods. The demand in each period is determined by the price of the product according to a linear demand model with unknown parameters. We assume that before the start of the selling horizon, the seller already has some pre-existing offline data. The offline data set contains n samples, each of which is an input-output pair consisting of a historical price and an associated demand observation. The seller wants to use both the pre-existing offline data and the sequentially revealed online data to minimize the regret of the online learning process. We characterize the joint effect of the size, location, and dispersion of the offline data on the optimal regret of the online learning process. Specifically, the size, location, and dispersion of the offline data are measured by the number of historical samples, the distance between the average historical price and the optimal price, and the standard deviation of the historical prices, respectively. For both single-historical-price setting and multiple-historical-price setting, we design a learning algorithm based on the “Optimism in the Face of Uncertainty” principle, which strikes a balance between exploration and exploitation and achieves the optimal regret up to a logarithmic factor. Our results reveal surprising transformations of the optimal regret rate with respect to the size of the offline data, which we refer to as phase transitions. In addition, our results demonstrate that the location and dispersion of the offline data also have an intrinsic effect on the optimal regret, and we quantify this effect via the inverse-square law. This paper was accepted by Omar Besbes, revenue management and market analytics.

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Jinzhi Bu

Constant-Order Policies for Lost-Sales Inventory Models with Random Supply Functions: Asymptotics and Heuristic

Online Pricing with Offline Data: Phase Transition and Inverse Square Law

Technical Note—Constant-Order Policies for Lost-Sales Inventory Models with Random Supply Functions: Asymptotics and Heuristic

Asymptotic Optimality of Base-Stock Policies for Perishable Inventory Systems

Online Pricing with Offline Data: Phase Transition and Inverse Square Law

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