A Physics‐Informed Neural Network as a Digital Twin of Optically Turbid Media

Mohammadrahim Kazemzadeh; Liam Collard; Linda Piscopo; Massimo De Vittorio; Ferruccio Pisanello

doi:10.1002/aisy.202400574

Advanced Intelligent Systems (May 2025)

A Physics‐Informed Neural Network as a Digital Twin of Optically Turbid Media

Mohammadrahim Kazemzadeh,
Liam Collard,
Linda Piscopo,
Massimo De Vittorio,
Ferruccio Pisanello

Affiliations

Mohammadrahim Kazemzadeh: Istituto Italiano di Tecnologia, Arnesano Center for Biomolecular Nanotechnologies 73010 Lecce Italy
Liam Collard: Istituto Italiano di Tecnologia, Arnesano Center for Biomolecular Nanotechnologies 73010 Lecce Italy
Linda Piscopo: Istituto Italiano di Tecnologia, Arnesano Center for Biomolecular Nanotechnologies 73010 Lecce Italy
Massimo De Vittorio: Istituto Italiano di Tecnologia, Arnesano Center for Biomolecular Nanotechnologies 73010 Lecce Italy
Ferruccio Pisanello: Istituto Italiano di Tecnologia, Arnesano Center for Biomolecular Nanotechnologies 73010 Lecce Italy

DOI: https://doi.org/10.1002/aisy.202400574
Journal volume & issue: Vol. 7, no. 5
pp. n/a – n/a

Abstract

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In this article, a novel methodology for characterizing and creating a digital twin of turbid media with intensity measurements only is presented, employing a unique physics‐informed neural network approach. Unlike previous approaches utilizing various deep neural network architectures that often function as black boxes, the method prioritizes interpretability, offering a clearer understanding of the underlying processes of light propagation through turbid media and estimating the transmission matrix. The possibility and use case of gradient calculation through this presented digital twin are showcased by solving the problem to retrieve the initial wavefront shape of the light that passed through the medium (e.g., the image transmission problem). The results surpassed the accuracy of models directly optimized for this task, underscoring the precision of the proposed digital twin. This capability represents a pivotal advancement for future developments in neuromorphic and deep learning computation and training using such a photonic and optical systems.

Published in Advanced Intelligent Systems

ISSN: 2640-4567 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Electronics: Computer engineering. Computer hardware; Technology: Mechanical engineering and machinery: Control engineering systems. Automatic machinery (General)
Website: https://onlinelibrary.wiley.com/journal/26404567

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