Media Summary: this episode discusses estimation of the object field f from g= Hf ^2. Code used in this episode is at ... Recorded 11 October 2022. Tim Salditt of the Georg-August-Universität zu Göttingen presents " Alison Wong, Benjamin Pope, Louis Desdoigts, Peter Tuthill, Barnaby Norris, Chris Betters Find out more by viewing the full poster ...

Phase Retrieval Computational Optical Imaging - Detailed Analysis & Overview

this episode discusses estimation of the object field f from g= Hf ^2. Code used in this episode is at ... Recorded 11 October 2022. Tim Salditt of the Georg-August-Universität zu Göttingen presents " Alison Wong, Benjamin Pope, Louis Desdoigts, Peter Tuthill, Barnaby Norris, Chris Betters Find out more by viewing the full poster ... ERRATA: at 48:43, the expression in the bottom right purple rectangle should be exp(-2 pi i K.X) instead of exp(-2 pi i K.x). Recorded 10 October 2022. Jianwei (John) Miao of the University of California, Los Angeles, presents " Stanford University APPLIED PHYSICS/PHYSICS COLLOQUIUM Tuesday, April 16, 2019 4:30 p.m. on campus in Hewlett ...

On August 19-20, 2019 the CMSA hosted our fifth annual Conference on Big Data. The Conference featured many speakers from ... Project Webpage: Holography is arguably the most promising technology to provide ... Title: An Introduction to hard X-ray Coherent Diffractive This episode compare the defocus behaviour of coherent and incoherent objects and derives the defocus A video discussion of the first chapter of the textbook

Photo Gallery

Phase retrieval: Computational Optical Imaging Episode 29
Tim Salditt - Phase Retrieval & Tomographic Reconstruction in X-ray Near-field Diffractive Imaging
Image Estimation Methods: Computational Optical Imaging Episide 12
Alison Wong: Phase Retrieval and Design with Automatic Differentiation
3D imaging and lensless imaging: light field camera/display, holography, and phase retrieval
Jianwei John Miao - Computational Microscopy: Coherent Diffractive Imaging to Electron Tomography
Laura Waller - “Computational Microscopy for phase retrieval, super resolution and 3D imaging”
Charles Epstein | Geometry of the Phase Retrieval Problem
Learned Hardware-in-the-loop Phase Retrieval for Holographic Near-Eye Displays
Scatter Imaging: Computational Optical Imaging Episode 33
Intro to hard X-ray Coherent Diffractive Imaging in Bragg geometry and quantitative phase retrieval
Focus and Depth of Field: Computational Optical Imaging Episode 50
View Detailed Profile
Phase retrieval: Computational Optical Imaging Episode 29

Phase retrieval: Computational Optical Imaging Episode 29

this episode discusses estimation of the object field f from g=|Hf|^2. Code used in this episode is at ...

Tim Salditt - Phase Retrieval & Tomographic Reconstruction in X-ray Near-field Diffractive Imaging

Tim Salditt - Phase Retrieval & Tomographic Reconstruction in X-ray Near-field Diffractive Imaging

Recorded 11 October 2022. Tim Salditt of the Georg-August-Universität zu Göttingen presents "

Image Estimation Methods: Computational Optical Imaging Episide 12

Image Estimation Methods: Computational Optical Imaging Episide 12

This episode introduces chapter 3 of

Alison Wong: Phase Retrieval and Design with Automatic Differentiation

Alison Wong: Phase Retrieval and Design with Automatic Differentiation

Alison Wong, Benjamin Pope, Louis Desdoigts, Peter Tuthill, Barnaby Norris, Chris Betters Find out more by viewing the full poster ...

3D imaging and lensless imaging: light field camera/display, holography, and phase retrieval

3D imaging and lensless imaging: light field camera/display, holography, and phase retrieval

ERRATA: at 48:43, the expression in the bottom right purple rectangle should be exp(-2 pi i K.X) instead of exp(-2 pi i K.x).

Jianwei John Miao - Computational Microscopy: Coherent Diffractive Imaging to Electron Tomography

Jianwei John Miao - Computational Microscopy: Coherent Diffractive Imaging to Electron Tomography

Recorded 10 October 2022. Jianwei (John) Miao of the University of California, Los Angeles, presents "

Laura Waller - “Computational Microscopy for phase retrieval, super resolution and 3D imaging”

Laura Waller - “Computational Microscopy for phase retrieval, super resolution and 3D imaging”

Stanford University APPLIED PHYSICS/PHYSICS COLLOQUIUM Tuesday, April 16, 2019 4:30 p.m. on campus in Hewlett ...

Charles Epstein | Geometry of the Phase Retrieval Problem

Charles Epstein | Geometry of the Phase Retrieval Problem

On August 19-20, 2019 the CMSA hosted our fifth annual Conference on Big Data. The Conference featured many speakers from ...

Learned Hardware-in-the-loop Phase Retrieval for Holographic Near-Eye Displays

Learned Hardware-in-the-loop Phase Retrieval for Holographic Near-Eye Displays

Project Webpage: https://light.princeton.edu/hil-holography/ Holography is arguably the most promising technology to provide ...

Scatter Imaging: Computational Optical Imaging Episode 33

Scatter Imaging: Computational Optical Imaging Episode 33

This episode considers

Intro to hard X-ray Coherent Diffractive Imaging in Bragg geometry and quantitative phase retrieval

Intro to hard X-ray Coherent Diffractive Imaging in Bragg geometry and quantitative phase retrieval

Title: An Introduction to hard X-ray Coherent Diffractive

Focus and Depth of Field: Computational Optical Imaging Episode 50

Focus and Depth of Field: Computational Optical Imaging Episode 50

This episode compare the defocus behaviour of coherent and incoherent objects and derives the defocus

What is computational imaging? Computational Optical Imaging Episode 1.

What is computational imaging? Computational Optical Imaging Episode 1.

A video discussion of the first chapter of the textbook