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Ali Basiri

from Pleasant Hill, CA
Age ~42
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Also known as:
Ali Basari
Related to:
Reza Basiri, 34
Connected to:
Chelsea C Basirico, 33Theo S Basis, 64Gopal K Basisht, 81Brian J Basista, 54Donald D Basista, 95Joseph J Basista, 58Karen M Basista, 62Sondra L Basista, 60Ayesha Basit, 38Beverly K Basit, 43

Ali Basiri Phones & Addresses

  • Pleasant Hill, CA
  • Oakland, CA
  • Arlington, VA
  • Silver Spring, MD
  • Washington, DC
  • Hyattsville, MD

Work

Company: The catholic university of america 2008 Position: Research assistant

Education

School / High School: The Catholic University of America- Washington, DC Oct 2014 Specialities: Ph.D. in Electrical Engineering

Skills

Design and construction of medical devices • specifically imaging systems Applied R&... • OrCAD • PSPICE • Word/Excel • Adobe Photoshop Analog and digital elec...

Resumes

Resumes

Ali Basiri Photo 1

Researcher

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Location:
122 Hubbard Ave, Pleasant Hill, CA 94523
Industry:
Biotechnology
Work:
The Catholic University of America Sep 2008 - Dec 2014
Research Assistant
Bioxytech Retina Sep 2008 - Dec 2014
Researcher
Education:
The Catholic University of America 2006 - 2014
Doctorates, Doctor of Philosophy, Electronics Engineering, Philosophy Shahid Beheshti University 2001 - 2006
Bachelors, Bachelor of Science, Electrical Engineering Catholic University of America
Skills:
Matlab
Spectroscopy
Statistics
Biomedical Engineering
Data Analysis
Programming
Microsoft Office
Excel
Word
Powerpoint
Image Processing
Microsoft Word
Optics
Labview
Mathematical Modeling
Physics
Signal Processing
Microsoft Excel
Research
Interests:
Social Services
Children
Civil Rights and Social Action
Education
Poverty Alleviation
Science and Technology
Disaster and Humanitarian Relief
Human Rights
Health
Languages:
English
Ali Basiri Photo 2

Internet

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Industry:
Computer Software
Ali Basiri Photo 3

Ali Basiri Oakland, CA

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Work:
The Catholic University of America

2008 to 2013
Research Assistant
The Catholic University of America

2007 to 2009
Research Assistant
The Catholic University of America

Sep 2007 to Nov 2007
Teaching Assistant, Introduction to Programming
The Catholic University of America

Sep 2007 to Nov 2007
Teaching Assistant
Electrical Network

Mar 2006 to May 2006
Teaching Assistant
Abnus Teb Hormoz Company

2005 to 2005
Consultant for design of a feedback device
ARSA International Construction Company

2004 to 2005
Technician
Takta Company

Jun 2004 to Aug 2004
Technician
Education:
The Catholic University of America
Washington, DC
Oct 2014
Ph.D. in Electrical Engineering
School of Engineering
2008
MS in Electrical Engineering
The Catholic University of America
Washington, DC
2006
BS in Electrical Engineering
NIST
Medical Imaging System for the Measurement of Oxygen
Shahid Beheshti (Melli) University
education, and experience
Skills:
Design and construction of medical devices, specifically imaging systems Applied R&D in electronics and medical devices Spectroscopic imaging systems in an optical alignment laboratory MATLAB and C++ with experience in image analysis HFSS, OrCAD, PSPICE, Word/Excel, Adobe Photoshop Analog and digital electronic circuit design Team and individual work Presentation and briefing skills

Publications

Us Patents

Methods For Diagnosis Of Colorectal Cancer

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US Patent:
20130218023, Aug 22, 2013
Filed:
Apr 8, 2011
Appl. No.:
13/639891
Inventors:
Francis M. Giardiello - Sparks MD, US
Daniel L. Edelstein - Phoenix MD, US
Jessica Ramella-Roman - Washington DC, US
Linda M. Hylind - Fallston MD, US
Ali Basiri - Silver Spring MD, US
Assignee:
THE JOHNS HOPKINS UNIVERSITY - Baltimore MD
International Classification:
A61B 5/00
US Classification:
600476
Abstract:
Methods and systems for use of phenotypic markers, principally oral mucosal vascular density alone or in combination with detection of other markers, to identify individuals afflicted with or having an increased risk of hereditary colorectal cancer, especially familial adenomatous polyposis, are disclosed.

Methods And Apparatus For Measuring Blood Oxygenation Of Tissue

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US Patent:
20220378333, Dec 1, 2022
Filed:
Aug 10, 2022
Appl. No.:
17/818911
Inventors:
- Richmond CA, US
Ali BASIRI - Pleasant Hill CA, US
International Classification:
A61B 5/1455
A61B 3/14
A61B 5/00
G06T 7/00
Abstract:
An apparatus and method of measuring oxygenation of tissue in a non-invasive manner are provided. The apparatus comprises a light source configured to emit a light pattern to be projected onto the tissue, in which the light pattern comprises superimposed patterns having different patterns. A detector captures an image of a reflected light pattern which is reflected from the tissue as a result of the projected light pattern. A processor coupled to the detector can be configured to perform a transform on the image of the reflected light pattern and determine oxygenation of each of a plurality of layers of the tissue in response to the transform of the image. Polarimetry can be used in determining a change in polarization angle of light beam. Tissue oxygenation can be determined at a plurality of layers from one snapshot, for example oxygenation of retinal layers.

Methods And Devices For Measuring Structural And Functional Properties Of Tissue

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US Patent:
20220202325, Jun 30, 2022
Filed:
Dec 31, 2020
Appl. No.:
17/139898
Inventors:
- Richmond CA, US
Ali BASIRI - Pleasant Hill CA, US
International Classification:
A61B 5/1455
A61B 5/00
G16H 50/30
G16H 50/70
G16H 15/00
G16H 10/60
G16H 50/50
G16H 50/20
G01N 33/49
Abstract:
A method of determining a parameter related to a blood oxygenation of tissue may include projecting an optical pattern onto the issue, the optical pattern comprising a spatially varying component in at least one axis. A method of determining a parameter related to a blood oxygenation of tissue may include collecting a reflected optical signal from at least a first and a second wavelength range, wherein the first and the second wavelength ranges are distinct. A method of determining a parameter related to a blood oxygenation of tissue may include normalizing the reflected optical signal. A method of determining a parameter related to a blood oxygenation of tissue may include performing a transform of the reflected optical signal. A method of determining a parameter related to a blood oxygenation of tissue may include determining the parameter related to the blood oxygenation of the tissue based on the ratio and the transform.

Methods And Apparatus For Measuring Blood Oxygenation Of Tissue

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US Patent:
20210100484, Apr 8, 2021
Filed:
May 27, 2020
Appl. No.:
16/884747
Inventors:
- Richmond CA, US
Ali BASIRI - Pleasant Hill CA, US
International Classification:
A61B 5/1455
A61B 3/14
A61B 5/00
G06T 7/00
Abstract:
An apparatus and method of measuring oxygenation of tissue in a non-invasive manner are provided. The apparatus comprises a light source configured to emit a light pattern to be projected onto the tissue, in which the light pattern comprises superimposed patterns having different patterns. A detector captures an image of a reflected light pattern which is reflected from the tissue as a result of the projected light pattern. A processor coupled to the detector can be configured to perform a transform on the image of the reflected light pattern and determine oxygenation of each of a plurality of layers of the tissue in response to the transform of the image. Polarimetry can be used in determining a change in polarization angle of light beam. Tissue oxygenation can be determined at a plurality of layers from one snapshot, for example oxygenation of retinal layers.

Methods And Apparatus For Measuring Blood Oxygenation Of Tissue

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US Patent:
20180289293, Oct 11, 2018
Filed:
Jun 8, 2018
Appl. No.:
16/004307
Inventors:
- Richmond CA, US
Ali BASIRI - Pleasant Hill CA, US
International Classification:
A61B 5/1455
A61B 5/00
A61B 3/14
G06T 7/00
Abstract:
An apparatus and method of measuring oxygenation of tissue in a non-invasive manner are provided. The apparatus comprises a light source configured to emit a light pattern to be projected onto the tissue, in which the light pattern comprises superimposed patterns having different patterns. A detector captures an image of a reflected light pattern which is reflected from the tissue as a result of the projected light pattern. A processor coupled to the detector can be configured to perform a transform on the image of the reflected light pattern and determine oxygenation of each of a plurality of layers of the tissue in response to the transform of the image. Polarimetry can be used in determining a change in polarization angle of light beam. Tissue oxygenation can be determined at a plurality of layers from one snapshot, for example oxygenation of retinal layers.

Realtime Schedule Management Interface

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US Patent:
20180285821, Oct 4, 2018
Filed:
Nov 14, 2017
Appl. No.:
15/813072
Inventors:
- San Francisco CA, US
John Gary Ryan Laban - Toronto, CA
Ian Alexander Enders - San Francisco CA, US
Ali Basiri - Santa Clara CA, US
Andrew Gregory Miklas - San Francisco CA, US
International Classification:
G06Q 10/10
G06Q 10/06
Abstract:
Embodiments are directed towards generating and managing schedules. In at least one of the various embodiments, these schedules may be configured to schedule team members, rotating which team member is active (“on-call”). In at least one of the various embodiments, these may be employed to determine which resource is responsible to respond and/or resolve incidents that may be reported and/or detected. In at least one of the various embodiments, if a team member is determined to be the on-call or responsible team member, the notification engine may determine the methods for notify the responsible of the incidents. Schedules previews may be updated in real-time as the schedule is edited.

Realtime Schedule Management Interface

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US Patent:
20140278667, Sep 18, 2014
Filed:
May 30, 2014
Appl. No.:
14/292596
Inventors:
- San Francisco CA, US
John Gary Ryan Laban - Toronto, CA
Ian Alexander Enders - San Francisco CA, US
Ali Basiri - Santa Clara CA, US
Andrew Gregory Miklas - San Francisco CA, US
Assignee:
PagerDuty, Inc. - San Francisco CA
International Classification:
G06Q 10/10
US Classification:
705 718
Abstract:
Embodiments are directed towards generating and managing schedules. In at least one of the various embodiments, these schedules may be configured to schedule team members, rotating which team member is active (“on-call”). In at least one of the various embodiments, these may be employed to determine which resource is responsible to respond and/or resolve incidents that may be reported and/or detected. In at least one of the various embodiments, if a team member is determined to be the on-call or responsible team member, the notification engine may determine the methods for notify die responsible of the incidents. Schedules previews may be updated in real-time as the schedule is edited.

Realtime Schedule Management Interface

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US Patent:
20140180747, Jun 26, 2014
Filed:
Mar 15, 2013
Appl. No.:
13/843544
Inventors:
- San Francisco CA, US
John Gary Ryan Laban - Toronto, CA
Ian Alexander Enders - San Francisco CA, US
Ali Basiri - Santa Clara CA, US
Andrew Gregory Miklas - San Francisco CA, US
Assignee:
PagerDuty, Inc. - San Francisco CA
International Classification:
G06Q 10/06
US Classification:
705 718
Abstract:
Embodiments are directed towards generating and managing schedules. In at least one of the various embodiments, these schedules may be configured to schedule team members, rotating which team member is active (“on-call”). In at least one of the various embodiments, these may be employed to determine which resource is responsible to respond and/or resolve incidents that may be reported and/or detected. In at least one of the various embodiments, if a team member is determined to be the on-call or responsible team member, the notification engine may determine the methods for notify the responsible of the incidents. Schedules previews may be updated in real-time as the schedule is edited.
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Ali Basiri from Pleasant Hill, CA, age ~42 Get Report