OP-FCNN: an optronic fully convolutional neural network for imaging through scattering media

HES / HEO 6001 PLUTO / PLUTO-2 Spatial Light Modulators

Deep Learning / Neuronal Network Turbid-/ Opaque Media /Multi Scattering

Published on:December, 2023

Authors: Zicheng Huang, Ziyu Gu, Mengyang Shi, Yesheng Gao, and Xingzhao Liu

Abstract:

Imaging through scattering media is a classical inverse issue in computational imaging. In recent years, deep learning(DL) methods have excelled in speckle reconstruction by extracting the correlation of speckle patterns. However, high-performance DL-based speckle reconstruction also costs huge hardware computation and energy consumption. Here, we develop an opto-electronic DL method with low computation complexity for imaging through scattering media. We design the “end-to-end” optronic structure for speckle reconstruction, namely optronic fully convolutional neural network (OP-FCNN). In OP-FCNN, we utilize lens groups and spatial light modulators to implement the convolution, down/up-sampling, and skip connection in optics, which significantly reduces the computational complexity by two orders of magnitude, compared with the digital CNN. Moreover, the reconfigurable and scalable structure supports the OP-FCNN to further improve imaging performance and accommodate object datasets of varying complexity. We utilize MNIST handwritten digits, EMNIST handwritten letters, fashion MNIST, and MIT-CBCL-face datasets to validate the OP-FCNN imaging performance through random diffusers. Our OP-FCNN reveals a good balance between computational complexity and imaging performance. The average imaging performance on four datasets achieves 0.84, 0.91, 0.79, and 16.3dB for JI, PCC, SSIM, and PSNR, respectively. The OP-FCNN paves the way for all-optical systems in imaging through scattering media.

Open Access

Publication: Optics Express

Issue/Year: Opt. Express 32, 444-456 (2024)

DOI: 10.1364/OE.511169

Link: https://doi.org/10.1364/OE.511169

Open the Publications Page

Related Papers

PLUTO / PLUTO-2 Spatial Light Modulators

Authors:Yangjun Li, Hangyu Zhang, Chenzhe Jiang, Leihong Zhang, and Dawei Zhang

Computational ghost imaging for atmospheric turbulence using model-driven and data-driven deep learning

Applications: Deep Learning / Neuronal Network,Imaging/ Image Processing,Turbid-/ Opaque Media /Multi Scattering

June, 2025

GAEA / GAEA-2 Spatial Light Modulators

Authors:Kyosik Min, Myeong-Ho Choi, and Jae-Hyeung Park

Quality enhancement of computer-generated hologram without contents-dependent optimization by considering aberrations in the optical system

Applications: AR/VR/MR / Holographic Display,Deep Learning / Neuronal Network,Imaging/ Image Processing

June, 2025

LC-R 720 Spatial Light Modulators

Authors:Don Bonifacio, Laterriean M. Minaya, Xuemei Chen, Yuanwei Zhang, and Xuan Liu

Phase-augmented deep learning for cell segmentation in wrapped quantitative phase images

Applications: Deep Learning / Neuronal Network

June, 2025

PLUTO / PLUTO-2 Spatial Light Modulators

Authors:Youngbin Na and Do-Kyeong Ko

Tailoring orbital angular momentum entanglement through inverse design based on gradient descent

Applications: Deep Learning / Neuronal Network,Higher Order Modes / Optical Vortex / OAM,Optical Computing / Quantum Optics

June, 2025

PLUTO / PLUTO-2 Spatial Light Modulators

Authors:Nima Asoudegi and Mo Mojahedi

Orbital Angular Momentum Holography Using Neural Network and Camera in the Loop

Applications: Deep Learning / Neuronal Network,Higher Order Modes / Optical Vortex / OAM,Optical Communication

May, 2025

PLUTO / PLUTO-2 Spatial Light Modulators

Authors:Kenneth Chen, Anzhou Wen, Yunxiang Zhang, Praneeth Chakravarthula and Qi Sun

View synthesis for 3D computer-generated holograms using deep neural fields

Applications: AR/VR/MR / Holographic Display,Deep Learning / Neuronal Network,Digital-/ Computer Holography/ CGH

April, 2025

PLUTO / PLUTO-2 Spatial Light Modulators

Authors:Juan Sebastián Ramírez-Quintero, Andres Osorno-Quiroz, Walter Torres-Sepúlveda and Alejandro Mira-Agudelo

Experimental wavefront sensing techniques based on deep learning models using a Hartmann-Shack sensor for visual optics applications

Applications: Adaptive Optics / Wavefront Control,Deep Learning / Neuronal Network

March, 2025

GAEA / GAEA-2 Spatial Light Modulators

Authors:Zhenqi Xu, Junmin Leng, Ping Dai and Chao Wang

DSCCNet for high-quality 4K computer-generated holograms

Applications: AR/VR/MR / Holographic Display,Complex Modulation,Deep Learning / Neuronal Network,Digital-/ Computer Holography/ CGH

March, 2025

PLUTO / PLUTO-2 Spatial Light Modulators

Authors:Yu-Chen Chen, Shi-Xuan Mi, Ya-Ping Tian, Xiao-Bo Hu, Qi-Yao Yuan, Khian-Hooi Chew and Rui-Pin Chen

Adaptive Vectorial Restoration from Dynamic Speckle Patterns Through Biological Scattering Media Based on Deep Learning

Applications: Adaptive Optics / Wavefront Control,Deep Learning / Neuronal Network,Digital-/ Computer Holography/ CGH,Imaging/ Image Processing,Microscopy,Misc.: Speckle / Characterization / Metrology,Phase Measurement / Phase Retrieval,Polarization Generation,Turbid-/ Opaque Media /Multi Scattering

March, 2025

PLUTO / PLUTO-2 Spatial Light Modulators

Authors:Qiukun Liao, Shijie Zhang, Yongtian Wang and Juan Liu

High-quality real-time 3D holographic display for real-world scenes based on the optimized layered angular spectrum method

Applications: AR/VR/MR / Holographic Display,Deep Learning / Neuronal Network,Digital-/ Computer Holography/ CGH,Misc.: Speckle / Characterization / Metrology,Phase Measurement / Phase Retrieval

March, 2025

PLUTO / PLUTO-2 Spatial Light Modulators

Authors:Zhiyuan Ye, Chen-Xin Ding, Jilun Zhao, Wanting Hou, Xue-Jiao Men, Yi Cui, Hong-Chao Liu, Hai-Bo Wang and Jun Xiong

Vortex memory effect of light for scattering-assisted massive data transmission

Applications: Higher Order Modes / Optical Vortex / OAM,Optical Communication,Turbid-/ Opaque Media /Multi Scattering

February, 2025

PLUTO / PLUTO-2 Spatial Light Modulators

Authors:Jiajia Wu, Xinkuo Li, Ke Sun, Kai Gao, Chenduan Chen, Jianrong Qiu and Dezhi Tan

Tight Focusing Holographic Network Enables 3D Real Time and Accurate Light Field Modulation

Applications: AR/VR/MR / Holographic Display,Deep Learning / Neuronal Network,Digital-/ Computer Holography/ CGH,Materials Processing / Optical Fabrication

February, 2025

LETO / LETO-3 Spatial Light Modulators

Authors:Siteng Li, Fei Wang, Zhenfeng Fu, Yaoming Bian and Guohai Situ

Dynamic quantitative phase imaging using deep spatial-temporal prior

Applications: Deep Learning / Neuronal Network

February, 2025

PLUTO / PLUTO-2 Spatial Light Modulators

Authors:Bahadır Utku Kesgin and Uğur Teğin

Photonic neural networks at the edge of spatiotemporal chaos in multimode fibers

Applications: Deep Learning / Neuronal Network

February, 2025

LC-R 2500 Spatial Light Modulators

Authors:Jianyi Li, Qingfeng Liu, Liying Tan, Jing Ma and Nanxing Chen

Enhanced Neural Architecture for Real-Time Deep Learning Wavefront Sensing

Applications: Adaptive Optics / Wavefront Control,Deep Learning / Neuronal Network

January, 2025

PLUTO / PLUTO-2 Spatial Light Modulators

Authors:Qi Jia, Bojian Shi, Yanxia Zhang, Hang Li, Xiaoxin Li, Rui Feng, Fangkui Sun, Yongyin Cao, Jian Wang, Cheng-Wei Qiu, Min Gu and Weiqiang Ding

Partially coherent diffractive optical neural network

Applications: Deep Learning / Neuronal Network,Optical Computing / Quantum Optics

December, 2024

PLUTO / PLUTO-2 Spatial Light Modulators

Authors:Zhenting Yan, Huiling Huang, Yili Chen, Hanfei Lin, Ebraheem Farea, Xingzhao Hua and Jun Han

Scattering imaging of moving targets based on recurrent neural networks: a fusion of temporal and phase information

Applications: Deep Learning / Neuronal Network,Imaging/ Image Processing,Turbid-/ Opaque Media /Multi Scattering

December, 2024

PLUTO / PLUTO-2 Spatial Light Modulators

Authors:Qiwei Fang, Huadong Zheng, Xinxing Xia, Junchang Peng, Tengfei Zhang, Xingyu Lin and Yingjie Yu

Diffraction model-driven neural network with semi-supervised training strategy for real-world 3D holographic photography

Applications: AR/VR/MR / Holographic Display,Deep Learning / Neuronal Network,Digital-/ Computer Holography/ CGH

December, 2024

LETO / LETO-3 Spatial Light Modulators

Authors:Haifeng Qin, Chao Han, Xuan Shi, Tao Gu and Kangsheng Sun

Complex-valued generative adversarial network for real-time and high-quality computer-generated holography

Applications: Deep Learning / Neuronal Network,Digital-/ Computer Holography/ CGH

November, 2024

PLUTO / PLUTO-2 Spatial Light Modulators

Authors:Zicheng Huang, Mengyang Shi, Jiahui Ma, Zhishun Guo, Yesheng Gao and Xingzhao Liu

Speckle-free self-supervised learning for scalable imaging through scattering media with unseen condition changes

Applications: Deep Learning / Neuronal Network,Misc.: Speckle / Characterization / Metrology,Turbid-/ Opaque Media /Multi Scattering

November, 2024

LETO / LETO-3 Spatial Light Modulators

Authors:Yiran Wei, Yiyun Chen, Mi Zhou, Mu Ku Chen, Shuming Jiao, Qinghua Song, Xiao-Ping Zhang and Zihan Geng

Speckle-free holography with a diffraction-aware global perceptual model

Applications: AR/VR/MR / Holographic Display,Deep Learning / Neuronal Network,Digital-/ Computer Holography/ CGH

October, 2024

PLUTO / PLUTO-2 Spatial Light Modulators

Authors:Wei Liu, Chuanfu Tu, Yawen Liu and Zhiwei Ye

Orbital angular momentum superimposed mode recognition based on multi-label image classification

Applications: Deep Learning / Neuronal Network,Digital-/ Computer Holography/ CGH,Higher Order Modes / Optical Vortex / OAM

October, 2024

GAEA / GAEA-2 Spatial Light Modulators

Authors:Kexuan Liu, Jiachen Wu, and Liangcai Cao

High-quality and high-speed computer-generated holography via deep-learning-assisted bidirectional error diffusion method

Applications: Deep Learning / Neuronal Network,Digital-/ Computer Holography/ CGH

October, 2024

PLUTO / PLUTO-2 Spatial Light Modulators

Authors:Haofan Huang, Qi Zhao, Huanhao Li, Yuandong Zheng, Zhipeng Yu, Tianting Zhong, Shengfu Cheng, Chi Man Woo, Yi Gao, Honglin Liu, Yuanjin Zheng, Jie Tian, Puxiang Lai

DeepSLM: Speckle-Licensed Modulation via Deep Adversarial Learning for Authorized Optical Encryption and Decryption

Applications: Deep Learning / Neuronal Network,Turbid-/ Opaque Media /Multi Scattering

September, 2024

Products & Services

About us:

OP-FCNN: an optronic fully convolutional neural network for imaging through scattering media

Related Papers

Computational ghost imaging for atmospheric turbulence using model-driven and data-driven deep learning

Quality enhancement of computer-generated hologram without contents-dependent optimization by considering aberrations in the optical system

Phase-augmented deep learning for cell segmentation in wrapped quantitative phase images

Tailoring orbital angular momentum entanglement through inverse design based on gradient descent

Orbital Angular Momentum Holography Using Neural Network and Camera in the Loop

View synthesis for 3D computer-generated holograms using deep neural fields

Experimental wavefront sensing techniques based on deep learning models using a Hartmann-Shack sensor for visual optics applications

DSCCNet for high-quality 4K computer-generated holograms

Adaptive Vectorial Restoration from Dynamic Speckle Patterns Through Biological Scattering Media Based on Deep Learning

High-quality real-time 3D holographic display for real-world scenes based on the optimized layered angular spectrum method

Vortex memory effect of light for scattering-assisted massive data transmission

Tight Focusing Holographic Network Enables 3D Real Time and Accurate Light Field Modulation

Dynamic quantitative phase imaging using deep spatial-temporal prior

Photonic neural networks at the edge of spatiotemporal chaos in multimode fibers

Enhanced Neural Architecture for Real-Time Deep Learning Wavefront Sensing

Partially coherent diffractive optical neural network

Scattering imaging of moving targets based on recurrent neural networks: a fusion of temporal and phase information

Diffraction model-driven neural network with semi-supervised training strategy for real-world 3D holographic photography

Complex-valued generative adversarial network for real-time and high-quality computer-generated holography

Speckle-free self-supervised learning for scalable imaging through scattering media with unseen condition changes

Speckle-free holography with a diffraction-aware global perceptual model

Orbital angular momentum superimposed mode recognition based on multi-label image classification

High-quality and high-speed computer-generated holography via deep-learning-assisted bidirectional error diffusion method

DeepSLM: Speckle-Licensed Modulation via Deep Adversarial Learning for Authorized Optical Encryption and Decryption

Your Cart is Empty