Lossy compression of digital holograms using Gabor frames

Anas El Rhammad; Antonin Gilles; Patrick Gioia; Antoine Lagrange

doi:10.1117/12.3017090

18 June 2024 Lossy compression of digital holograms using Gabor frames

Anas El Rhammad, Antonin Gilles, Patrick Gioia, Antoine Lagrange

Proceedings Volume 12998, Optics, Photonics, and Digital Technologies for Imaging Applications VIII; 129980K (2024) https://doi.org/10.1117/12.3017090
Event: SPIE Photonics Europe, 2024, Strasbourg, France

Abstract

In this paper, we investigate the application of Gabor Frames (GFs) as an effective Time-Frequency (TF) analysis tool for compressing digital holograms. Our choice of GFs stems from their notable flexibility and accuracy in TF decomposition. Unlike some other techniques, GFs offer the advantage of accommodating both overcomplete and orthonormal signal representations. Furthermore, GFs have a robust mathematical foundation, opening doors to a broad spectrum of potential applications beyond compression. First, we provide an overview of essential concepts in GFs theory like dual GFs, analysis and synthesis operators. Second, we illustrate how GFs can be employed for digital holograms representation in the phase space domain. For compression purpose, we substitute the Short-Time Fourier Transform (STFT) used in the JPEG-PLENO Holography codec by tight GFs, and compare their encoding performance. We present and thoroughly discuss the rate-distortion graphs, shedding light on the efficacy of GFs in digital hologram lossy compression.

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(2024) Published by SPIE. Downloading of the abstract is permitted for personal use only.

Citation Download Citation

Anas El Rhammad, Antonin Gilles, Patrick Gioia, and Antoine Lagrange "Lossy compression of digital holograms using Gabor frames", Proc. SPIE 12998, Optics, Photonics, and Digital Technologies for Imaging Applications VIII, 129980K (18 June 2024); https://doi.org/10.1117/12.3017090

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KEYWORDS

Holograms

Holography

Digital holography

Quantization

Computer generated holography

Wave propagation

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