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Hauptverfasser: Liao, Sijia, Sun, Xiaoxiao, Hao, Ning, Zhang, Hao Helen
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2508.20278
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author Liao, Sijia
Sun, Xiaoxiao
Hao, Ning
Zhang, Hao Helen
author_facet Liao, Sijia
Sun, Xiaoxiao
Hao, Ning
Zhang, Hao Helen
contents The scalar-on-image regression model examines the association between a scalar response and a bivariate function (e.g., images) through the estimation of a bivariate coefficient function. Existing approaches often impose smoothness constraints to control the bias-variance trade-off, and thus prevent overfitting. However, such assumptions can hinder interpretability, especially when only certain regions of an image influence changes in the response. In such a scenario, interpretability can be better captured by imposing sparsity assumptions on the coefficient function. To address this challenge, we propose the Generalized Dantzig Selector, a novel method that jointly enforces sparsity and smoothness on the coefficient function. The proposed approach enhances interpretability by accurately identifying regions with no contribution to the changes of response, while preserving stability in estimation. Extensive simulation studies and real data applications demonstrate that the new method is highly interpretable and achieves notable improvements over existing approaches. Moreover, we rigorously establish non-asymptotic bounds for the estimation error, providing strong theoretical guarantees for the proposed framework.
format Preprint
id arxiv_https___arxiv_org_abs_2508_20278
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Interpretable Scalar-on-Image Linear Regression Models via the Generalized Dantzig Selector
Liao, Sijia
Sun, Xiaoxiao
Hao, Ning
Zhang, Hao Helen
Methodology
The scalar-on-image regression model examines the association between a scalar response and a bivariate function (e.g., images) through the estimation of a bivariate coefficient function. Existing approaches often impose smoothness constraints to control the bias-variance trade-off, and thus prevent overfitting. However, such assumptions can hinder interpretability, especially when only certain regions of an image influence changes in the response. In such a scenario, interpretability can be better captured by imposing sparsity assumptions on the coefficient function. To address this challenge, we propose the Generalized Dantzig Selector, a novel method that jointly enforces sparsity and smoothness on the coefficient function. The proposed approach enhances interpretability by accurately identifying regions with no contribution to the changes of response, while preserving stability in estimation. Extensive simulation studies and real data applications demonstrate that the new method is highly interpretable and achieves notable improvements over existing approaches. Moreover, we rigorously establish non-asymptotic bounds for the estimation error, providing strong theoretical guarantees for the proposed framework.
title Interpretable Scalar-on-Image Linear Regression Models via the Generalized Dantzig Selector
topic Methodology
url https://arxiv.org/abs/2508.20278