3D Image Acquisition and Display: Technology, Perception and Applications

3D Image Acquisition and Display: Technology, Perception and Applications

11 July 2022 – 15 July 2022 Hyatt Regency Vancouver, Vancouver, British Columbia, British Columbia Canada

This topical meeting aims to bring together researchers and engineers from a broad range of interdisciplinary fields to present their work in the science, technology, and applications of 3D image collection, information processing, visualization, and display technologies. This meeting will cover research areas related to the acquisition, processing, display, and applications of (non-holographic) 3D information as well as the perception, human factors, and visual comfort of 3D information displays.

Research related to scientific understanding of 3D information display and perception, technological innovation on 3D image acquisition or display methods, and task-specific design and applications of 3D acquisition or display technology is of particular interest. Application areas of interest include but not limited to virtual reality, augmented reality, biomedicine, microscopy, endoscopy, healthcare, 3D sensing, 3D information processing, autonomous vehicle, wearable displays, and entertainment.

www.optica.org/en-us/events/meeting_archives/2022/computational_optical_sensing_and_imaging/

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Topics

1. 3D Sensing and Imaging Technologies — examples include
   • Sensor technologies for 3D sensing and imaging
   • 3D information acquisition methods and optical architectures
   • LIDAR sensing and imaging
   • Structured illumination
   • 3D imaging in scattering media
   • 3D technology for autonomous driving and intelligent systems
   • Optical engineering design of 3D information acquisition systems
   • User interface technologies for 3D systems such as gaze tracking, depth sensing, motion tracking, etc.
2. 3D Display and Visualization Technologies — examples include
   • 3D display hardware and software technologies, including holographic, light field, volumetric, as well as stereoscopic display technologies
   • Wearable display methods and technologies, including virtual and augmented reality displays
   • 3D information display methods and optical architectures
   • Optical engineering design of 3D display systems
3. Image Processing for 3D Systems — examples include
   • Image processing for 3D acquisition and display systems
   • Deep learning and artificial intelligence for 3D acquisition and display systems
   • Calibration and registration
4. Applications of 3D Image Acquisition or Display Technologies — examples include
   • Virtual reality and augmented reality systems
   • Autonomous vehicles
   • Entertainment and enterprise applications
   • Defense and security
   • Healthcare applications of 3D technologies, including biomedicine, microscopy, endoscopy, medical and scientific visualization, etc.
5. Emerging Optical Materials and Components for 3D Systems — examples include
   • Flat optics such as meta surfaces or Pancharatnam-Berry (PB) phase lens, etc.
   • Gradient index materials and applications in 3D systems
   • Active and tunable optics for 3D systems
6. Perception, Human Factors and Visual Comfort of 3D Information Displays

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Committee

• Hong Hua, Univ of Arizona, Coll of Opt Sciences, United States, Chair
• Adrian Stern, Ben Gurion University of the Negev, Israel, Chair
• Ana Doblas, University of Memphis, United States, Program Chair
• Manuel Martinez-Corral, University of Valencia, Spain, Program Chair
• Simon Thibault, Université Laval, Canada, Program Chair
• Julia Alonso, Universidad de la República, Uruguay
• Artur Carnicer, Universitat de Barcelona, Spain
• Maria Cruz, UP campus Guadalajara, Mexico
• Osamu Matoba, Kobe University, Japan
• Yifan Peng, University of Hong Kong, United States
• Elisabet Perez Cabre, Universitat Politecnica de Catalunya, Spain
• Anne-Sophie Poulin-Girard, Université Laval, Canada
• Miaomiao Xu, Meta Platforms, United States

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Speakers

• George Barbastathis, Massachusetts Institute of Technology, United States
  Imaging and Modeling Complex Physical Processes Using Deep Learning
• Emily Cooper, University of California Berkeley, United States
  Taking a Binocular View of Augmented Reality Optical Design
• Juergen Czarske, Technische Universität Dresden, Germany
  3D Lensless Fiber Endoscopy Exploiting Deep Learning and Diffractive Optical Elements
• Qionghai Dai, Tsinghua University, China
  Scanning Light-Field Imaging with Digital Adaptive Optics
• Milena D'Angelo, Università degli Studi di Bari Aldo Moro, Italy
  Correlation Plenoptic Imaging
• Pietro Ferraro, Istituto Nazionale di Ottica, Italy
  Intracellular Screening of Morphological Biomarkers Through Microscopy 3D Imaging and Visualization
• Jorge Garcia-Sucerquia, Universidad Nacional de Colombia, Colombia
  Our Contributions to the Democratization of Digital Holographic Microscopy
• Achuta Kadambi, University of California Los Angeles, United States
  On Equity/Performance of Optical Biosensing
• Bernard Kress, Google LLC, United States
  AR Waveguides as a Hybrid Functional Platform to Achieve Smart Glass Form Factors
• Seung Ah Lee, Yonsei University, Republic Of Korea
  Design and Fabrication of Phase-Masks for Lensless Photography
• James Leger, University of Minnesota Twin Cities, United States
  3D Imaging from Passive Scattered Light Using Plenoptic Information
• Jinyang Liang, Institut National de la Recherche Sci., Canada
  High-speed Band-Limited Illumination Profilometry
• Abhijit Mahalanobis, University of Central Florida, United States
  On the Detection and Recognition of Objects in 3D Point Cloud Data Using Few Shot Learning
• Inkyu Moon, Chosun University, Republic Of Korea
  Automated Image-Based Phenotypic Analysis and Classification of Live Cells via Holographic Imaging and Machine Learning
• Wolfgang Osten, Universität Stuttgart, Germany
  The Power of Holography
• Jae-Hyeung Park, Inha University, Republic Of Korea
  Near Eye Displays with Enhanced Focus Cues Using Maxwellian, Multi-Layer, and Light Field Technique
• YongKeun Park, Korea Advanced Inst of Science & Tech, Republic Of Korea
  Quantitative Phase Imaging and Artificial Intelligence: Label-Free 3D Imaging, Classification, and Inference
• Ulrich Quaade, NIL Technology, Denmark
  Metalens Based Camera Modules for 3D Sensing
• Joseph Rosen, Ben Gurion University of the Negev, Israel
  3D Image Acquisition Using COACH and Related Systems
• Travis Sawyer, University of Arizona, United States
  Advancing In Vivo Biomedical Sensing Using 3D Functional and Microstructural Imaging Modalities
• Nir Shitrit, Ben Gurion University of the Negev, Israel
  Toward 3D Imaging with Ultracompact Structured Light System of Metasurface-Combining VCSELs
• Enrique Tajahuerce, Universitat Jaume I, Spain
  3D Imaging and Microscopy with Single Pixel Detectors
• Lei Tian, Boston University, United States
  Computational Miniature Mesoscope for Large-Scale 3D Fluorescence Imaging
• Zeev Zalevsky, Bar-Ilan University, Israel
  3D Micro-Endoscopy
• Renjie Zhou, Chinese University of Hong Kong, Hong Kong
  High-Speed Optical Diffraction Tomography for Cell Analysis and Additive Manufacturing Metrology

 

Chairs

 

Hong Hua

Univ of Arizona, Coll of Opt Sciences, United States
Chair

Adrian Stern

Ben Gurion University of the Negev, Israel
Chair

Ana Doblas

University of Memphis, United States
Program Chair

Manuel Martinez-Corral

University of Valencia, Spain
Program Chair

Simon Thibault

Université Laval, Canada
Program Chair

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Special Events

 

From Student to Career: A Look Inside Different Career Paths

Tuesday, 12 July 14:00 – 16:00

Students can ask questions and hear from professionals in different fields about the steps they took in choosing their career paths, what it takes to be successful in their field, and what a typical work day is like and how it differs from graduate school.

Speakers
Scott Davis, Vescent Photonics, USA
Mark Zondlo, Princeton University, USA
Jaakko Lehtinen, Gasera, Finland
Michelle Bailey, NIST, USA
Derek Guenther, Ocean Insight, USA

Recent Advances in Free-Space Optical Communications

Wednesday, 13 July 09:30 – 11:00

Join the Laser Systems Technical group for a special talk led by Szymon Gladysz followed by a networking reception. With several major companies like SpaceX, Facebook, Google, and hundreds of smaller companies pursuing several concepts involving laser communications technology, Gladysz will discuss the recent advances in free-space laser communications in atmospheric and underwater environments. Please use this link to RSVP: https://bit.ly/3NpKmcM.

Speaker:
Szymon Gladysz, Head of the Adaptive Optics Group, Fraunhofer Institute of Optronics, System Technologies and Image Exploitation, Germany

Conference Reception

Wednesday, 13 July 18:00 – 20:30

Join your fellow attendees for a festive evening. Guest tickets are available for USD 75.

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