Please use this identifier to cite or link to this item: https://repository.iimb.ac.in/handle/2074/22563
Title: Achieving Efficiency in Black-Box Simulation of Distribution Tails with Self-Structuring Importance Samplers
Authors: Deo, Anand 
Murthy, Karthyek 
Keywords: Variance reduction;Tail risks;Rare event simulation;Importance sampling;Contextual models;Portfolio credit risk;Value-at-risk;Conditional value-at-risk;Log efficient
Issue Date: 2023
Publisher: INFORMS
Abstract: This paper presents a novel importance sampling (IS) scheme for estimating distribution tails of performance measures modeled with a rich set of tools, such as linear programs, integer linear programs, piecewise linear/quadratic objectives, feature maps specified with deep neural networks, etc. The conventional approach of explicitly identifying efficient changes of measure suffers from feasibility and scalability concerns beyond highly stylized models because of their need to be tailored intricately to the objective and the underlying probability distribution. This bottleneck is overcome in the proposed scheme with an elementary transformation that is capable of implicitly inducing an effective IS distribution in a variety of models by replicating the concentration properties observed in less rare samples. This novel approach is guided by developing a large deviations principle that brings out the phenomenon of self-similarity of optimal IS distributions. The proposed sampler is the first to attain asymptotically optimal variance reduction across a spectrum of multivariate distributions despite being oblivious to the specifics of the underlying model. Its applicability is illustrated with contextual shortest-path and portfolio credit risk models informed by neural networks.
URI: https://repository.iimb.ac.in/handle/2074/22563
ISSN: 0030-364X
1526-5463
DOI: 10.1287/opre.2021.0331
Appears in Collections:2020-2029 C

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