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Main Authors: Jouidi, Jalal, Chatelain, Florent, Bailly, Lucie, Granjon, Pierre, Bihan, Nicolas Le, Catheline, Stefan
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2605.19963
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author Jouidi, Jalal
Chatelain, Florent
Bailly, Lucie
Granjon, Pierre
Bihan, Nicolas Le
Catheline, Stefan
author_facet Jouidi, Jalal
Chatelain, Florent
Bailly, Lucie
Granjon, Pierre
Bihan, Nicolas Le
Catheline, Stefan
contents This paper addresses the problem of tracking in-plane waves from image sequences using periodic surface patterns. Wave-induced deformation is modeled as a spatial phase modulation of a periodic carrier. We propose ADOPT (Analytical Demodulation of Periodic Texture), a method based on an oriented two-dimensional analytic signal to estimate displacement phase and orientation. The approach relies on a physical model describing longitudinal and transverse in-plane waves. Orientation-selective filtering isolates relevant spectral components, and phase extraction provides a stable reconstruction of the displacement field. A theoretical analysis using the Cramer--Rao bound evaluates performance limits of ADOPT. Simulations show that the proposed method outperforms state-of-the-art Digital Image Correlation (DIC) at high signal-to-noise ratios, especially for small displacements where DIC becomes limited. Moreover, ADOPT is more computationally efficient. Experiments on silicone membranes with periodic patterns confirm accurate estimation of wave fields and dispersion curves under impulsive excitation. Overall, the proposed framework provides a robust and efficient solution for wave-induced displacement estimation.
format Preprint
id arxiv_https___arxiv_org_abs_2605_19963
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle ADOPT: Analytical Demodulation of Periodic Textures for In-Plane Wave Tracking
Jouidi, Jalal
Chatelain, Florent
Bailly, Lucie
Granjon, Pierre
Bihan, Nicolas Le
Catheline, Stefan
Signal Processing
This paper addresses the problem of tracking in-plane waves from image sequences using periodic surface patterns. Wave-induced deformation is modeled as a spatial phase modulation of a periodic carrier. We propose ADOPT (Analytical Demodulation of Periodic Texture), a method based on an oriented two-dimensional analytic signal to estimate displacement phase and orientation. The approach relies on a physical model describing longitudinal and transverse in-plane waves. Orientation-selective filtering isolates relevant spectral components, and phase extraction provides a stable reconstruction of the displacement field. A theoretical analysis using the Cramer--Rao bound evaluates performance limits of ADOPT. Simulations show that the proposed method outperforms state-of-the-art Digital Image Correlation (DIC) at high signal-to-noise ratios, especially for small displacements where DIC becomes limited. Moreover, ADOPT is more computationally efficient. Experiments on silicone membranes with periodic patterns confirm accurate estimation of wave fields and dispersion curves under impulsive excitation. Overall, the proposed framework provides a robust and efficient solution for wave-induced displacement estimation.
title ADOPT: Analytical Demodulation of Periodic Textures for In-Plane Wave Tracking
topic Signal Processing
url https://arxiv.org/abs/2605.19963