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Matthew A Kupinski

from Tucson, AZ
Age ~51
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Also known as:
Matt Kupinski
Phone and address:
7050 Sunrise Ave, Tucson, AZ 85750
Related to:
Gary L Whitaker, 71Ariel Jane Whitaker, 31Lorraine WhitakerKaren Whitaker, 70Brian Whitaker, 33
Connected to:
Nora Kupinski, 66Casey C Kupisch, 52Amy E Kupiszewski, 54Darrell E Kupka, 71Anita O Kupke, 61Cathy D Kupke, 63Connie C Kupke, 69Sandra L Kupkovits, 71Julia E Kuplen, 60James V Kuplicki, 69

Matthew Kupinski Phones & Addresses

  • 7050 Sunrise Ave, Tucson, AZ 85750
  • 4315 Three Chimneys Ln, Cumming, GA 30041
  • Chicago, IL
  • 2300 E Corte Ingles, Tucson, AZ 85718

Resumes

Resumes

Matthew Kupinski Photo 1

Associate Professor At The University Of Arizona

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Location:
Tucson, AZ
Industry:
Research
Work:
The University of Arizona
Associate Professor at the University of Arizona
Education:
University of Chicago 1995 - 2000
Doctorates, Doctor of Philosophy, Physics, Philosophy Trinity University 1992 - 1995
Bachelors, Bachelor of Science, Physics
Skills:
Physics
Image Analysis
Modeling
Image Processing
Information Theory
Statistics
Matthew Kupinski Photo 2

Matthew Kupinski

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Publications

Us Patents

Method And System For The Segmentation And Classification Of Lesions

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US Patent:
61380458, Oct 24, 2000
Filed:
Aug 7, 1998
Appl. No.:
9/131162
Inventors:
Matthew A. Kupinski - Chicago IL
Maryellen L. Giger - Chicago IL
Assignee:
Arch Development Corporation - Chicago IL
International Classification:
A61B 505
US Classification:
600425
Abstract:
A method for the automated segmentation of an abnormality in a medical image, including acquiring first image data representative of the medical image; locating a suspicious site at which the abnormality may exist; establishing a seed point within the suspicious site; and preprocessing the suspicious site with a constraint function to produce second image data in which pixel values distant of the seed point are suppressed. Preprocessing includes using an isotropic Gaussian function centered on the seed point as the constraint function, or for example using an isotropic three dimensional Gaussian function centered on the seed point as the constraint function. The method further includes applying plural thresholds to the second image data to partition the second image data at each threshold; identifying corresponding first image data for the partitioned second image data obtained at each respective threshold; determining a respective index for each of the partitioned first image data; and determining a preferred partitioning, for example that partitioning leading to a maximum index value, based on the indices determined at each threshold, and segmenting the lesion based on the partitioning established by the threshold resulting in the maximum index. If desired, the first image data with the partitioning defined by the threshold which is determined to result in the maximum index, is then displayed. A system and computer readable storage medium are also provided, likewise using the radial gradient index (RGI) or a simple probabilistic models to segment mass lesions, or other similar nodular structures, from surrounding background.

Measurement Of The Lipid And Aqueous Layers Of A Tear Film

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US Patent:
20170188815, Jul 6, 2017
Filed:
Mar 17, 2017
Appl. No.:
15/461893
Inventors:
- Rochester NY, US
- Tucson AZ, US
Eric Clarkson - Tucson AZ, US
Matthew Kupinski - Tucson AZ, US
Assignee:
UNIVERSITY OF ROCHESTER - Rochester NY
THE ARIZONA BOARD OF REGENTS ON BEHALF OF THE UNIVERSITY OF ARIZONA - Tucson AZ
International Classification:
A61B 3/10
A61B 3/113
A61B 3/00
Abstract:
Systems and methods for determining thickness of lipid and aqueous layers of a tear film in which a spectrum array is generated from optical coherence tomography and input into a statistical estimator, which determines the thickness of the lipid and/or aqueous layers at a nanometer resolution based on the inputted spectrum and other information, such as information about a laser intensity noise, Poisson noise, and dark noise associated with the OCT.

Systems, Methods And Devices For Performing Motion Artifact Correction

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US Patent:
20170061589, Mar 2, 2017
Filed:
Apr 30, 2015
Appl. No.:
15/308310
Inventors:
- Tucson AZ, US
Bijan Najafi - Tucson AZ, US
Matthew A. Kupinski - Tucson AZ, US
International Classification:
G06T 5/00
Abstract:
The present invention provides methods and devices for correcting motion related imaging artifacts. In particular, the methods include positioning a device configured to detect motion at a region of interest on an object, simultaneously obtaining an image data set of the region of interest and a motion data set at the region of interest with the device, and correcting motion related imaging artifacts with an algorithm configured to identify time periods of motion from the motion data set, and correct the image data set corresponding to the identified time periods of motion.

Measurement Of The Lipid And Aqueous Layers Of A Tear Film

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US Patent:
20150216407, Aug 6, 2015
Filed:
Nov 19, 2014
Appl. No.:
14/548067
Inventors:
- Rochester NY, US
- Tucson AZ, US
Eric Clarkson - Tucson AZ, US
Matthew Kupinski - Tucson AZ, US
International Classification:
A61B 3/10
A61B 3/113
A61B 3/00
Abstract:
Systems and methods for determining thickness of lipid and aqueous layers of a tear film in which a spectrum array is generated from optical coherence tomography and input into a statistical estimator, which determines the thickness of the lipid and/or aqueous layers at a nanometer resolution based on the inputted spectrum and other information, such as information about a laser intensity noise, Poisson noise, and dark noise associated with the OCT.
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Matthew A Kupinski from Tucson, AZ, age ~51 Get Report