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Mark Harfouche

from Durham, NC
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Connected to:
Lily Harfouche, 47Sabrina A Harfouche, 36Mary A Harfoush, 79David L Harfst, 56Harold J Harfst, 91Larry A Harfst, 71Lauren Harfst, 49Curtis D Hargadine, 84Rose Hargadine, 33Alexandra P Hargadon, 34

Mark Harfouche Phones & Addresses

  • Durham, NC
  • Pasadena, CA

Work

Company: Ramona optics Oct 2016 Position: Co-founder

Education

Degree: Doctorates, Doctor of Philosophy School / High School: Caltech 2012 to 2017 Specialities: Electronics Engineering, Philosophy, Electronics

Skills

Hotels • Hospitality Management • Hotel Management • Hospitality Industry • Hospitality • Front Office • Pre Opening • Resorts • Food and Beverage • Rooms Division • Matlab • Nanotechnology • Simulations • Physics • Signal Processing • C++ • Research • Machine Learning • Microsoft Office • Programming

Interests

Science and Technology • Education

Industries

Electrical/Electronic Manufacturing

Resumes

Resumes

Mark Harfouche Photo 1

Co-Founder

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Location:
711 south Buchanan Blvd, Durham, NC 27701
Industry:
Electrical/Electronic Manufacturing
Work:
Ramona Optics
Co-Founder
Children's Mercy Hospital
Marketing Executive
Caltech
Phd Candidate
Education:
Caltech 2012 - 2017
Doctorates, Doctor of Philosophy, Electronics Engineering, Philosophy, Electronics Caltech 2011 - 2012
Masters, Electronics Engineering, Electronics University of Toronto 2007 - 2011
Bachelors, Engineering College Central Jounieh
Skills:
Hotels
Hospitality Management
Hotel Management
Hospitality Industry
Hospitality
Front Office
Pre Opening
Resorts
Food and Beverage
Rooms Division
Matlab
Nanotechnology
Simulations
Physics
Signal Processing
C++
Research
Machine Learning
Microsoft Office
Programming
Interests:
Science and Technology
Education

Publications

Us Patents

System And Method For Parallelized Volumetric Microscope Imaging

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US Patent:
20230070475, Mar 9, 2023
Filed:
Sep 2, 2022
Appl. No.:
17/902761
Inventors:
- Durham NC, US
Mark Harfouche - Durham NC, US
Paul Reamey - Durham NC, US
International Classification:
G02B 21/36
G02B 21/00
Abstract:
A system can be used for imaging volumetric samples using a camera array to capture images under different illumination patterns at different axial planes of focus, and at optionally varying lateral fields of view. The sequence of images taken under the different illumination patterns and optional varying lateral fields of view can be processed to generate an image representation of the sample at a focus plane of the sample. Multiple image representations at different focus planes are assembled to form a 3D volumetric representation of the sample.

System And Method For Synchronized Fluorescence Capture

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US Patent:
20230058781, Feb 23, 2023
Filed:
Oct 31, 2022
Appl. No.:
17/978078
Inventors:
- Durham NC, US
Mark Harfouche - Durham NC, US
Gregor Horstmeyer - Durham NC, US
Jed Doman - Durham NC, US
Paul Reamey - Durham NC, US
International Classification:
G01N 21/64
G02B 21/16
G02B 21/06
G02B 21/36
Abstract:
A system and method for high resolution multi-fluorescence imaging with synchronized image acquisition amongst sensors can be used to simultaneously capture fluorescence signals from multiple fluorophores over extremely large fields of view. The system can include an array of micro-cameras, along with a particular arrangement of fluorescent filters that can be fixed in one location or moved to new locations.

Multiple Camera Microscope Imaging With Patterned Illumination

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US Patent:
20210255448, Aug 19, 2021
Filed:
Apr 12, 2021
Appl. No.:
17/228121
Inventors:
- Palo Alto CA, US
Robert HORSTMEYER - Palo Alto CA, US
Mark Harfouche - Pasadena CA, US
International Classification:
G02B 21/36
G02B 21/06
H04N 5/225
H04N 5/232
H04N 5/247
Abstract:
An array of more than one digital micro-camera, along with the use of patterned illumination and a digital post-processing operation, jointly create a multi-camera patterned illumination (MCPI) microscope. Each micro-camera includes its own unique lens system and detector. The field-over-view of each micro-camera unit at least partially overlaps with the field-of-view of one or more other micro-camera units within the array. The entire field-of-view of a sample of interest is imaged by the entire array of micro-cameras in a single snapshot. In addition, the MCPI system uses patterned optical illumination to improve its effective resolution. The MCPI system captures one or more images as the patterned optical illumination changes its distribution across space and/or angle at the sample. Then, the MCPI system digitally combines the acquired image sequence using a unique post-processing algorithm.

Multiple Camera Microscope Imaging With Patterned Illumination

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US Patent:
20200285037, Sep 10, 2020
Filed:
Mar 28, 2017
Appl. No.:
16/066065
Inventors:
- Palo Alto CA, US
Robert Horstmeyer - Palo Alto CA, US
Mark Harfouche - Pasadena CA, US
International Classification:
G02B 21/36
G02B 21/06
H04N 5/247
H04N 5/232
H04N 5/225
Abstract:
An array of more than one digital micro-camera, along with the use of patterned illumination and a digital post-processing operation, jointly create a multi-camera patterned illumination (MCPI) microscope. Each micro-camera includes its own unique lens system and detector. The field-over-view of each micro-camera unit at least partially overlaps with the field-of-view of one or more other micro-camera units within the array. The entire field-of-view of a sample of interest is imaged by the entire array of micro-cameras in a single snapshot. In addition, the MCPI system uses patterned optical illumination to improve its effective resolution. The MCPI system captures one or more images as the patterned optical illumination changes its distribution across space and/or angle at the sample. Then, the MCPI system digitally combines the acquired image sequence using a unique post-processing algorithm.

System And Method To Optically Authenticate Physical Objects

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US Patent:
20200143032, May 7, 2020
Filed:
Jul 11, 2018
Appl. No.:
16/630431
Inventors:
- Palo Alto CA, US
Robert HORSTMEYER - Palo Alto CA, US
Mark HARFOUCHE - Pasadena CA, US
Ron Appel - Palo Alto CA, US
International Classification:
G06F 21/44
G02B 21/06
G02B 21/36
Abstract:
A system and method to verify the authenticity of a physical object, based on the efficient acquisition and digital post-processing of a large amount of optical data. An optical system, comprised of an array of microscope-type “micro-cameras” and a patterned illumination source, acquires spatial, spectral and angular information about the physical object in the form of micro-camera images. The set of all acquired images comprise one object dataset, which a post-processing system then digitally transforms into a multi-gigabyte set of semi-random keys. Authentication takes place at a later date following a challenge-and-response protocol. The high resolution (1 Gigabyte) of the key set similarly prevents both physical and digital forgery attempts.
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Mark Harfouche from Durham, NC Get Report