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Bibliographic Details
Main Authors: Zheng, Zhiwen, Qiao, Yuheng, Zhang, Xiaoshuai, Huang, Zhao, Zhang, Tao, Zhou, Huiyu, Jiang, Shaowei, Liu, Jin, Tang, Wenwen, Huang, Xingru
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2604.13419
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Table of Contents:
  • Noncontact exfiltration of electronic screen content poses a security challenge, with side-channel incursions as the principal vector. We introduce an optical projection side-channel paradigm that confronts two core instabilities: (i) the near-singular Jacobian spectrum of projection mapping breaches Hadamard stability, rendering inversion hypersensitive to perturbations; (ii) irreversible compression in light transport obliterates global semantic cues, magnifying reconstruction ambiguity. Exploiting passive speckle patterns formed by diffuse reflection, our Irradiance Robust Radiometric Inversion Network (IR4Net) fuses a Physically Regularized Irradiance Approximation (PRIrr-Approximation), which embeds the radiative transfer equation in a learnable optimizer, with a contour-to-detail cross-scale reconstruction mechanism that arrests noise propagation. Moreover, an Irreversibility Constrained Semantic Reprojection (ICSR) module reinstates lost global structure through context-driven semantic mapping. Evaluated across four scene categories, IR4Net achieves fidelity beyond competing neural approaches while retaining resilience to illumination perturbations.