Simple Inference on Functionals of Set-Identified Parameters Defined by Linear Moments

Joon Hwan Cho; Thomas M. Russell

doi:10.1080/07350015.2023.2203768

Simple Inference on Functionals of Set-Identified Parameters Defined by Linear Moments

Joon Hwan Cho
, Thomas M. Russell

Economics

Binghamton University

Carleton University

Research output: Contribution to journal › Article › peer-review

Abstract

This article proposes a new approach to obtain uniformly valid inference for linear functionals or scalar subvectors of a partially identified parameter defined by linear moment inequalities. The procedure amounts to bootstrapping the value functions of randomly perturbed linear programming problems, and does not require the researcher to grid over the parameter space. The low-level conditions for uniform validity rely on genericity results for linear programs. The unconventional perturbation approach produces a confidence set with a coverage probability of 1 over the identified set, but obtains exact coverage on an outer set, is valid under weak assumptions, and is computationally simple to implement.

Original language	English
Pages (from-to)	563-578
Number of pages	16
Journal	Journal of Business and Economic Statistics
Volume	42
Issue number	2
DOIs	https://doi.org/10.1080/07350015.2023.2203768
State	Published - 2024

Keywords

Linear programming
Partial Identification
Stochastic programming
Subvector inference

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10.1080/07350015.2023.2203768

Cite this

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abstract = "This article proposes a new approach to obtain uniformly valid inference for linear functionals or scalar subvectors of a partially identified parameter defined by linear moment inequalities. The procedure amounts to bootstrapping the value functions of randomly perturbed linear programming problems, and does not require the researcher to grid over the parameter space. The low-level conditions for uniform validity rely on genericity results for linear programs. The unconventional perturbation approach produces a confidence set with a coverage probability of 1 over the identified set, but obtains exact coverage on an outer set, is valid under weak assumptions, and is computationally simple to implement.",

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AB - This article proposes a new approach to obtain uniformly valid inference for linear functionals or scalar subvectors of a partially identified parameter defined by linear moment inequalities. The procedure amounts to bootstrapping the value functions of randomly perturbed linear programming problems, and does not require the researcher to grid over the parameter space. The low-level conditions for uniform validity rely on genericity results for linear programs. The unconventional perturbation approach produces a confidence set with a coverage probability of 1 over the identified set, but obtains exact coverage on an outer set, is valid under weak assumptions, and is computationally simple to implement.

KW - Linear programming

KW - Partial Identification

KW - Stochastic programming

KW - Subvector inference

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ER -

Simple Inference on Functionals of Set-Identified Parameters Defined by Linear Moments

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