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High Accuracy Transmission and Recognition of Complex Images through Multimode Fibers Using Deep Learning

Runchu Xu, Leihong Zhang, Ziyang Chen, Zhiyuan Wang, Dawei Zhang

2022Laser & Photonics Review35 citationsDOI

Abstract

Abstract Multimode fiber shows tremendous potential in promoting the microminiaturization of optical endoscopes. However, multimode transmission is quite sensitive to fiber deformations and environmental changes. High‐accuracy transmission of complex images through a multimode fiber using traditional methods remains challenging research. Deep learning, which shows enormous vitality in optical imaging, may break through this limitation. Here, a deep neural network: U‐architecture speckles imaging network (USINET) is presented to realize high accuracy reconstruction of complex images under different multimode fiber transmission conditions. Furthermore, a shallow neural network: convolutional neural network (CNN)‐architecture speckles recognition network (CSRNET) is designed to realize high accuracy recognition for multiple categories of speckles at the output of multimode fiber under different bending states. The experimental results demonstrate that the proposed networks can realize high accuracy transmission and recognition of complex images through multimode fibers, which indicates the application prospect of multimode fibers combined with deep learning in minimally invasive medicine.

Topics & Concepts

Multi-mode optical fiberSpeckle patternDeep learningComputer scienceConvolutional neural networkArtificial intelligenceTransmission (telecommunications)Artificial neural networkFiberOptical fiberPattern recognition (psychology)Materials scienceTelecommunicationsComposite materialOptical Coherence Tomography ApplicationsRandom lasers and scattering mediaAdvanced Fiber Optic Sensors
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