Gradient-based Stochastic Optimization of Utility-based Shortfall Risk
Sumedh Gupte,
Prashanth L. A. and
Sanjay P. Bhat
Papers from arXiv.org
Abstract:
We consider the problems of estimation and optimization of utility-based shortfall risk (UBSR). We extend UBSR to cover possibly unbounded random variables. We cover prominent risk measures such as entropic risk, expectile risk, Value-at-Risk, and quadratic risk as special cases of the UBSR. In the context of estimation, we derive non-asymptotic bounds on the mean absolute error (MAE) and the mean-squared error (MSE) of the classical sample-average approximation (SAA) estimator for the UBSR. In the context of optimization, we derive an expression for the gradient of UBSR under a smooth parameterization. We propose a gradient estimator for the UBSR and derive non-asymptotic bounds on MAE and MSE for this estimator. We incorporate the aforementioned gradient estimator into a stochastic gradient (SG) optimization algorithm and derive non-asymptotic bounds on the convergence rate of our SG algorithm for optimizing UBSR under three objectives, namely, strongly convex, convex and non-convex. Finally, we conduct experiments on financial applications to demonstrate the performance of our proposed UBSR estimation and optimization algorithms.
Date: 2025-06, Revised 2026-06
New Economics Papers: this item is included in nep-ecm, nep-rmg and nep-upt
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Persistent link: https://EconPapers.repec.org/RePEc:arx:papers:2506.01101
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