#deeplearningoptics search results
Computational imaging without a computer: seeing through random diffusers at the speed of light elight.springeropen.com/articles/10.11… @eLight2021 @SpringerNature @UCLAengineering @cnsiatucla #ComputationalImaging #DeepLearningOptics
Analysis of Diffractive Neural Networks for Seeing Through Random Diffusers ieeexplore.ieee.org/document/98441… @IEEEPhotonics @UCLAengineering @ECE_UCLA @cnsiatucla #diffractivenetworks #deeplearningoptics
Seeing through random diffusers at the speed of light elight.springeropen.com/articles/10.11… @eLight2021 @UCLAengineering @cnsiatucla #deeplearningoptics
Single-pixel machine vision using diffractive networks advances.sciencemag.org/content/7/13/e… @ScienceAdvances @UCLAengineering @cnsiatucla #diffractiveopticalnetworks #deeplearningoptics
Data Class-Specific All-Optical Transformations and Encryption, published in Advanced Materials: onlinelibrary.wiley.com/doi/10.1002/ad… @ECE_UCLA @UCLAengineering @cnsiatucla @AdvSciNews #deeplearningoptics #diffractivenetworks
Neural network-based image reconstruction in optical coherence tomography using undersampled data: nature.com/articles/s4137… @LightSciAppl @cnsiatucla @UCLAengineering #deeplearningoptics #opticalcoherencetomography
Object classification and image reconstruction through a single-pixel detector: advances.sciencemag.org/content/7/13/e… @ScienceAdvances @cnsiatucla @UCLAengineering #DiffractiveOpticalNetworks #OpticalComputing #DeepLearningOptics #DeepLearning
Spectrally encoded single-pixel machine vision using diffractive networks, published in Science Advances: advances.sciencemag.org/content/7/13/e… @aaas @ScienceAdvances @cnsiatucla @UCLAengineering #deeplearningoptics #diffractiveopticalnetworks #deeplearning
All-optical synthesis of an arbitrary linear transformation using diffractive surfaces: nature.com/articles/s4137… #diffractiveopticalnetworks #opticalcomputing #deeplearningoptics @LightSciAppl @UCLAengineering @cnsiatucla
We report the first demonstration of unidirectional imaging @ScienceAdvances. Works under broadband light, independent of polarization: science.org/doi/10.1126/sc… @UCLAengineering @cnsiatucla @ECE_UCLA #deeplearningoptics
Universal Polarization Transformations: Spatial Programming of Polarization Scattering Matrices Using A Deep Learning-Designed Diffractive Polarization Transformer: onlinelibrary.wiley.com/doi/10.1002/ad… @AdvSciNews @UCLAengineering @cnsiatucla @ECE_UCLA #DeepLearningOptics
Classification and reconstruction of spatially overlapping phase images using diffractive optical networks nature.com/articles/s4159… @UCLAengineering @cnsiatucla @SciReports #DeepLearningOptics #DiffractiveComputing #DiffractiveNetworks
Analysis of Microalgae Populations Using Label-Free Imaging Flow Cytometry and Deep Learning @ACSPhotonics pubs.acs.org/doi/full/10.10… @UCLAengineering @cnsiatucla #DeepLearningOptics #DeepLearningMicroscopy #AlgaeDetection
pubs.acs.org
Phenotypic Analysis of Microalgae Populations Using Label-Free Imaging Flow Cytometry and Deep...
Environmental factors such as temperature, nutrients, and pollutants affect the growth rates and physical characteristics of microalgae populations. As algae play a vital role in marine ecosystems,...
All-optical image classification through unknown random diffusers using a single-pixel diffractive network nature.com/articles/s4137… @LightSciAppl @UCLAengineering @ECE_UCLA @cnsiatucla #deeplearningoptics #diffractivenetworks
nature.com
All-optical image classification through unknown random diffusers using a single-pixel diffractive...
Light: Science & Applications - All-optical image classification through unknown random diffusers using a single-pixel diffractive network
Our Review is out @OpticaPubsGroup with 80+ pages: At the intersection of optics and deep learning: statistical inference, computing, and inverse design opg.optica.org/aop/abstract.c… @UCLAengineering @cnsiatucla @ECE_UCLA @OpticaWorldwide #DeepLearningOptics
Shaping Light Pulses with Deep Learning osa-opn.org/home/newsroom/… @OPNmagazine @OpticalSociety @UCLAengineering @cnsiatucla @NatureComms #DeepLearningOptics #DiffractiveOpticalNetworks
Imaging through random diffusers instantly without a computer techxplore.com/news/2022-01-i… @eLight2021 @UCLAengineering @cnsiatucla #DeepLearningOptics
techxplore.com
Imaging through random diffusers instantly without a computer
Imaging through scattering and diffusive media has been a challenge for many decades, with numerous solutions reported so far. In principle, images distorted by random diffusers (such as frosted...
Snapshot multispectral imaging using a diffractive optical network: nature.com/articles/s4137… @LightSciAppl @UCLAengineering @ECE_UCLA @cnsiatucla #diffractiveopticalnetworks #diffractivecomputing #deeplearningoptics
nature.com
Snapshot multispectral imaging using a diffractive optical network
Light: Science & Applications - Snapshot multispectral imaging using a diffractive optical network
Ensemble learning and feature engineering significantly improve the inference and image classification performance of diffractive optical networks nature.com/articles/s4137… @LightSciAppl #DeepLearningOptics #DiffractiveOpticalNetworks
Rapid sensing of hidden objects and defects using a single-pixel diffractive terahertz sensor @NatureComms nature.com/articles/s4146… @UCLAengineering @ECE_UCLA @cnsiatucla #deeplearningoptics #diffractiveprocessing #diffractivenetworks
Do you want to send optical information behind a fully opaque occlusion of arbitrary shape? Then you should read our recent paper @natcomms nature.com/articles/s4146… @UCLAengineering @ECE_UCLA @cnsiatucla #deeplearningoptics
Rapid sensing of hidden objects and defects using a single-pixel diffractive terahertz sensor @NatureComms nature.com/articles/s4146… @UCLAengineering @ECE_UCLA @cnsiatucla #deeplearningoptics #diffractiveprocessing #diffractivenetworks
Universal Polarization Transformations: Spatial Programming of Polarization Scattering Matrices Using A Deep Learning-Designed Diffractive Polarization Transformer: onlinelibrary.wiley.com/doi/10.1002/ad… @AdvSciNews @UCLAengineering @cnsiatucla @ECE_UCLA #DeepLearningOptics
We report the first demonstration of unidirectional imaging @ScienceAdvances. Works under broadband light, independent of polarization: science.org/doi/10.1126/sc… @UCLAengineering @cnsiatucla @ECE_UCLA #deeplearningoptics
Data Class-Specific All-Optical Transformations and Encryption, published in Advanced Materials: onlinelibrary.wiley.com/doi/10.1002/ad… @ECE_UCLA @UCLAengineering @cnsiatucla @AdvSciNews #deeplearningoptics #diffractivenetworks
Snapshot multispectral imaging using a diffractive optical network: nature.com/articles/s4137… @LightSciAppl @UCLAengineering @ECE_UCLA @cnsiatucla #diffractiveopticalnetworks #diffractivecomputing #deeplearningoptics
nature.com
Snapshot multispectral imaging using a diffractive optical network
Light: Science & Applications - Snapshot multispectral imaging using a diffractive optical network
All-optical image classification through unknown random diffusers using a single-pixel diffractive network nature.com/articles/s4137… @LightSciAppl @UCLAengineering @ECE_UCLA @cnsiatucla #deeplearningoptics #diffractivenetworks
nature.com
All-optical image classification through unknown random diffusers using a single-pixel diffractive...
Light: Science & Applications - All-optical image classification through unknown random diffusers using a single-pixel diffractive network
Analysis of Diffractive Neural Networks for Seeing Through Random Diffusers ieeexplore.ieee.org/document/98441… @IEEEPhotonics @UCLAengineering @ECE_UCLA @cnsiatucla #diffractivenetworks #deeplearningoptics
Our Review is out @OpticaPubsGroup with 80+ pages: At the intersection of optics and deep learning: statistical inference, computing, and inverse design opg.optica.org/aop/abstract.c… @UCLAengineering @cnsiatucla @ECE_UCLA @OpticaWorldwide #DeepLearningOptics
Classification and reconstruction of spatially overlapping phase images using diffractive optical networks nature.com/articles/s4159… @UCLAengineering @cnsiatucla @SciReports #DeepLearningOptics #DiffractiveComputing #DiffractiveNetworks
Seeing through random diffusers at the speed of light elight.springeropen.com/articles/10.11… @eLight2021 @UCLAengineering @cnsiatucla #deeplearningoptics
Imaging through random diffusers instantly without a computer techxplore.com/news/2022-01-i… @eLight2021 @UCLAengineering @cnsiatucla #DeepLearningOptics
techxplore.com
Imaging through random diffusers instantly without a computer
Imaging through scattering and diffusive media has been a challenge for many decades, with numerous solutions reported so far. In principle, images distorted by random diffusers (such as frosted...
Computational imaging without a computer: seeing through random diffusers at the speed of light elight.springeropen.com/articles/10.11… @eLight2021 @SpringerNature @UCLAengineering @cnsiatucla #ComputationalImaging #DeepLearningOptics
All-optical synthesis of an arbitrary linear transformation using diffractive surfaces: nature.com/articles/s4137… #diffractiveopticalnetworks #opticalcomputing #deeplearningoptics @LightSciAppl @UCLAengineering @cnsiatucla
Neural network-based image reconstruction in optical coherence tomography using undersampled data: nature.com/articles/s4137… @LightSciAppl @cnsiatucla @UCLAengineering #deeplearningoptics #opticalcoherencetomography
Single-pixel machine vision using diffractive networks advances.sciencemag.org/content/7/13/e… @ScienceAdvances @UCLAengineering @cnsiatucla #diffractiveopticalnetworks #deeplearningoptics
Object classification and image reconstruction through a single-pixel detector: advances.sciencemag.org/content/7/13/e… @ScienceAdvances @cnsiatucla @UCLAengineering #DiffractiveOpticalNetworks #OpticalComputing #DeepLearningOptics #DeepLearning
Spectrally encoded single-pixel machine vision using diffractive networks, published in Science Advances: advances.sciencemag.org/content/7/13/e… @aaas @ScienceAdvances @cnsiatucla @UCLAengineering #deeplearningoptics #diffractiveopticalnetworks #deeplearning
Analysis of Microalgae Populations Using Label-Free Imaging Flow Cytometry and Deep Learning @ACSPhotonics pubs.acs.org/doi/full/10.10… @UCLAengineering @cnsiatucla #DeepLearningOptics #DeepLearningMicroscopy #AlgaeDetection
pubs.acs.org
Phenotypic Analysis of Microalgae Populations Using Label-Free Imaging Flow Cytometry and Deep...
Environmental factors such as temperature, nutrients, and pollutants affect the growth rates and physical characteristics of microalgae populations. As algae play a vital role in marine ecosystems,...
Shaping Light Pulses with Deep Learning osa-opn.org/home/newsroom/… @OPNmagazine @OpticalSociety @UCLAengineering @cnsiatucla @NatureComms #DeepLearningOptics #DiffractiveOpticalNetworks
Computational imaging without a computer: seeing through random diffusers at the speed of light elight.springeropen.com/articles/10.11… @eLight2021 @SpringerNature @UCLAengineering @cnsiatucla #ComputationalImaging #DeepLearningOptics
Seeing through random diffusers at the speed of light elight.springeropen.com/articles/10.11… @eLight2021 @UCLAengineering @cnsiatucla #deeplearningoptics
Analysis of Diffractive Neural Networks for Seeing Through Random Diffusers ieeexplore.ieee.org/document/98441… @IEEEPhotonics @UCLAengineering @ECE_UCLA @cnsiatucla #diffractivenetworks #deeplearningoptics
Single-pixel machine vision using diffractive networks advances.sciencemag.org/content/7/13/e… @ScienceAdvances @UCLAengineering @cnsiatucla #diffractiveopticalnetworks #deeplearningoptics
Data Class-Specific All-Optical Transformations and Encryption, published in Advanced Materials: onlinelibrary.wiley.com/doi/10.1002/ad… @ECE_UCLA @UCLAengineering @cnsiatucla @AdvSciNews #deeplearningoptics #diffractivenetworks
Object classification and image reconstruction through a single-pixel detector: advances.sciencemag.org/content/7/13/e… @ScienceAdvances @cnsiatucla @UCLAengineering #DiffractiveOpticalNetworks #OpticalComputing #DeepLearningOptics #DeepLearning
Spectrally encoded single-pixel machine vision using diffractive networks, published in Science Advances: advances.sciencemag.org/content/7/13/e… @aaas @ScienceAdvances @cnsiatucla @UCLAengineering #deeplearningoptics #diffractiveopticalnetworks #deeplearning
Neural network-based image reconstruction in optical coherence tomography using undersampled data: nature.com/articles/s4137… @LightSciAppl @cnsiatucla @UCLAengineering #deeplearningoptics #opticalcoherencetomography
All-optical synthesis of an arbitrary linear transformation using diffractive surfaces: nature.com/articles/s4137… #diffractiveopticalnetworks #opticalcomputing #deeplearningoptics @LightSciAppl @UCLAengineering @cnsiatucla
We report the first demonstration of unidirectional imaging @ScienceAdvances. Works under broadband light, independent of polarization: science.org/doi/10.1126/sc… @UCLAengineering @cnsiatucla @ECE_UCLA #deeplearningoptics
Universal Polarization Transformations: Spatial Programming of Polarization Scattering Matrices Using A Deep Learning-Designed Diffractive Polarization Transformer: onlinelibrary.wiley.com/doi/10.1002/ad… @AdvSciNews @UCLAengineering @cnsiatucla @ECE_UCLA #DeepLearningOptics
Classification and reconstruction of spatially overlapping phase images using diffractive optical networks nature.com/articles/s4159… @UCLAengineering @cnsiatucla @SciReports #DeepLearningOptics #DiffractiveComputing #DiffractiveNetworks
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