Litcius/Paper detail

Memory-less scattering imaging with ultrafast convolutional optical neural networks

Yuchao Zhang, Qiming Zhang, Haoyi Yu, Yinan Zhang, Haitao Luan, Miṅ Gu

2024Science Advances43 citationsDOIOpen Access PDF

Abstract

The optical memory effect in complex scattering media including turbid tissue and speckle layers has been a critical foundation for macroscopic and microscopic imaging methods. However, image reconstruction from strong scattering media without the optical memory effect has not been achieved. Here, we demonstrate image reconstruction through scattering layers where no optical memory effect exists, by developing a multistage convolutional optical neural network (ONN) integrated with multiple parallel kernels operating at the speed of light. Training this Fourier optics-based, parallel, one-step convolutional ONN with the strong scattering process for direct feature extraction, we achieve memory-less image reconstruction with a field of view enlarged by a factor up to 271. This device is dynamically reconfigurable for ultrafast multitask image reconstruction with a computational power of 1.57 peta-operations per second (POPS). Our achievement establishes an ultrafast and high energy-efficient optical machine learning platform for graphic processing.

Topics & Concepts

Speckle patternComputer scienceConvolutional neural networkScatteringUltrashort pulseArtificial intelligenceOpticsIterative reconstructionFeature (linguistics)Deep learningLight scatteringFeature extractionComputer visionPhysicsPhilosophyLinguisticsLaserRandom lasers and scattering mediaNeural Networks and Reservoir ComputingOptical Coherence Tomography Applications