Holographic 3D particle reconstruction using a one-stage network

Volumetric reconstruction of a three-dimensional (3D) particle field with high resolution and low latency is an ambitious and valuable task. As a compact and high-throughput imaging system, digital holography (DH) encodes the 3D information of a particle volume into a two-dimensional (2D) interferen...

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Veröffentlicht in:	Applied optics (2004) 2022-02, Vol.61 (5), p.B111-B120
Hauptverfasser:	Zhang, Yunping, Zhu, Yanmin, Lam, Edmund Y
Format:	Artikel
Sprache:	eng
Schlagworte:	Digital imaging Holography Image reconstruction Noise levels Particle tracking
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container_title	Applied optics (2004)
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creator	Zhang, Yunping Zhu, Yanmin Lam, Edmund Y
description	Volumetric reconstruction of a three-dimensional (3D) particle field with high resolution and low latency is an ambitious and valuable task. As a compact and high-throughput imaging system, digital holography (DH) encodes the 3D information of a particle volume into a two-dimensional (2D) interference pattern. In this work, we propose a one-stage network (OSNet) for 3D particle volumetric reconstruction. Specifically, by a single feed-forward process, OSNet can retrieve the 3D coordinates of the particles directly from the holograms without high-fidelity image reconstruction at each depth slice. Evaluation results from both synthetic and experimental data confirm the feasibility and robustness of our method under different particle concentrations and noise levels in terms of detection rate and position accuracy, with improved processing speed. The additional applications of 3D particle tracking are also investigated, facilitating the analysis of the dynamic displacements and motions for micro-objects or cells. It can be further extended to various types of computational imaging problems sharing similar traits.
doi_str_mv	10.1364/AO.444856
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source	Alma/SFX Local Collection; Optica Publishing Group Journals
subjects	Digital imaging Holography Image reconstruction Noise levels Particle tracking
title	Holographic 3D particle reconstruction using a one-stage network
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