Paper Info
Title
Calibration of Distributionally Robust Empirical Optimization Models
Abstract
We study the out-of-sample properties of robust empirical optimization problems with smooth phi-divergence penalties and smooth concave objective functions, and we develop a theory for data-driven calibration of the nonnegative "robustness parameter" delta that controls the size of the deviations from the nominal model. Building on the intuition that robust optimization reduces the sensitivity of the expected reward to errors in the model by controlling the spread of the reward distribution, we show that the first-order benefit of "little bit of robustness" (i.e., delta small, positive) is a significant reduction in the variance of the out-of-sample reward, whereas the corresponding impact on the mean is almost an order of magnitude smaller. One implication is that substantial variance (sensitivity) reduction is possible at little cost if the robustness parameter is properly calibrated. To this end, we introduce the notion of a robust mean-variance frontier to select the robustness parameter and show that it can be approximated using resampling methods such as the bootstrap. Our examples show that robust solutions resulting from "open-loop" calibration methods (e.g., selecting a 90% confidence level regardless of the data and objective function) can be very conservative out of sample, whereas those corresponding to the robustness parameter that optimizes an estimate of the out-of-sample expected reward (e.g., via the bootstrap) with no regard for the variance are often insufficiently robust.
Year
DOI
Venue
2017
10.1287/opre.2020.2041
OPERATIONS RESEARCH
Keywords
Field
DocType
distributionally robust optimization, calibration, worst-case sensitivity, variance reduction
Mathematical optimization,Robust optimization,Robustness (computer science),Confidence interval,Open-loop controller,Resampling,Bootstrapping (electronics),Mathematics,Maximization,Calibration
Journal
Volume
Issue
ISSN
69
5
0030-364X
Citations 
PageRank 
References 
0
0.34
6
Authors
3
Name
Order
Citations
PageRank
Jun-Ya Gotoh111710.17
Michael Jong Kim2395.03
Andrew E. B. Lim329841.99