Distribution-free Inferential Models: Achieving finite-sample valid probabilistic inference, with emphasis on quantile regression

IF 3.2 3区计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE International Journal of Approximate Reasoning Pub Date : 2024-05-10 DOI:10.1016/j.ijar.2024.109211

Leonardo Cella

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Abstract

This paper presents a novel distribution-free Inferential Model (IM) construction that provides valid probabilistic inference across a broad spectrum of distribution-free problems, even in finite sample settings. More specifically, the proposed IM has the capability to assign (imprecise) probabilities to assertions of interest about any feature of the unknown quantities under examination, and these probabilities are well-calibrated in a frequentist sense. It is also shown that finite-sample confidence regions can be derived from the IM for any such features. Particular emphasis is placed on quantile regression, a domain where uncertainty quantification often takes the form of set estimates for the regression coefficients in applications. Within this context, the IM facilitates the acquisition of these set estimates, ensuring they are finite-sample confidence regions. It also enables the provision of finite-sample valid probabilistic assignments for any assertions of interest about the regression coefficients. As a result, regardless of the type of uncertainty quantification desired, the proposed framework offers an appealing solution to quantile regression.

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无分布推断模型：实现有限样本有效概率推断，重点是量子回归

本文提出了一种新颖的无分布推理模型（IM）结构，它能在广泛的无分布问题中提供有效的概率推理，即使在有限样本环境中也是如此。更具体地说，所提出的推理模型有能力为所研究的未知量的任何特征的相关断言分配（不精确的）概率，而且这些概率在频数主义意义上是经过良好校准的。研究还表明，对于任何此类特征，都可以从 IM 中推导出有限样本置信区。本文特别强调了量化回归，在这一领域中，不确定性量化通常采用回归系数集合估计的形式。在这种情况下，IM 可以帮助获取这些集合估计值，确保它们是有限样本置信区域。它还能为回归系数的任何相关断言提供有限样本有效概率分配。因此，无论所需的不确定性量化类型如何，所提出的框架都为量化回归提供了一个极具吸引力的解决方案。

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来源期刊

International Journal of Approximate Reasoning 工程技术-计算机：人工智能

CiteScore

6.90

自引率

12.80%

发文量

170

审稿时长

67 days

期刊介绍： The International Journal of Approximate Reasoning is intended to serve as a forum for the treatment of imprecision and uncertainty in Artificial and Computational Intelligence, covering both the foundations of uncertainty theories, and the design of intelligent systems for scientific and engineering applications. It publishes high-quality research papers describing theoretical developments or innovative applications, as well as review articles on topics of general interest. Relevant topics include, but are not limited to, probabilistic reasoning and Bayesian networks, imprecise probabilities, random sets, belief functions (Dempster-Shafer theory), possibility theory, fuzzy sets, rough sets, decision theory, non-additive measures and integrals, qualitative reasoning about uncertainty, comparative probability orderings, game-theoretic probability, default reasoning, nonstandard logics, argumentation systems, inconsistency tolerant reasoning, elicitation techniques, philosophical foundations and psychological models of uncertain reasoning. Domains of application for uncertain reasoning systems include risk analysis and assessment, information retrieval and database design, information fusion, machine learning, data and web mining, computer vision, image and signal processing, intelligent data analysis, statistics, multi-agent systems, etc.

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