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Anatoley Zheleznyak

from Great Falls, VA
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Also known as:
Anatoley Zhelezuyak, Anatoley Zhelezyak
Phone and address:
10116 Walker Lake Dr, Great Falls, VA 22066
(703) 757-0289
Connected to:
Maxim Zheleznyak, 45Michael A Zhelyaskov, 44An Zhen, 34Anjie Zhen, 40Daxing Zhen, 38Elaine Zhen, 41Huan P Zhen, 44Jennifer Zhen, 36Ji ZhenJu Q Zhen, 45

Anatoley Zheleznyak Phones & Addresses

  • 10116 Walker Lake Dr, Great Falls, VA 22066 (703) 757-0289
  • 711 Utterback Store Rd, Great Falls, VA 22066 (703) 870-7225
  • 18636 Sunhaven Ct, Olney, MD 20832 (301) 570-1633 (301) 260-0883
  • Alexandria, VA
  • Fairfax, VA
  • Rockville, MD
  • Baltimore, MD

Work

Position: Washington d.c metro area

Education

School / High School: University of Maryland 1997 Specialities: Philosophy

Skills

Algorithms • Matlab • Python • Signal Processing • Machine Learning • Image Processing • Computer Science • Physics • Computer Vision • Software Engineering • Algorithm Development • Programming • C++ • Simulations

Languages

English • Russian

Industries

Defense & Space

Resumes

Resumes

Anatoley Zheleznyak Photo 1

Washington D.c Metro Area

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Location:
10116 Walker Lake Dr, Great Falls, VA 22066
Industry:
Defense & Space
Work:

Washington D.c Metro Area
Education:
University of Maryland 1997
Kishinev State University 1986
Master of Science, Masters
Skills:
Algorithms
Matlab
Python
Signal Processing
Machine Learning
Image Processing
Computer Science
Physics
Computer Vision
Software Engineering
Algorithm Development
Programming
C++
Simulations
Languages:
English
Russian

Publications

Us Patents

System And Method For Detecting A Face Contour Using A Three-Dimensional Measurement System

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US Patent:
20140049769, Feb 20, 2014
Filed:
Mar 15, 2013
Appl. No.:
13/840441
Inventors:
Anatoley T. ZHELEZNYAK - Great Falls VA, US
Assignee:
Digital Signal Corporation - Alexandria VA
International Classification:
G01S 17/89
US Classification:
356 28
Abstract:
A system uses range and Doppler velocity measurements from a lidar system and images from a video system to estimate a six degree-of-freedom trajectory of a target. The system may determine a skin area or face contour based on the 3D measurements from a lidar subsystem and information regarding the location of various facial features from the 2D video images of a video subsystem.

System And Method For Increasing Resolution Of Images Obtained From A Three-Dimensional Measurement System

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US Patent:
20140064555, Mar 6, 2014
Filed:
Mar 15, 2013
Appl. No.:
13/841620
Inventors:
Anatoley T. ZHELEZNYAK - Great Falls VA, US
Assignee:
Digital Singnal Corporation - Alexandria VA
International Classification:
G06T 5/00
US Classification:
382103
Abstract:
A system uses range and Doppler velocity measurements from a lidar system and images from a video system to estimate a six degree-of-freedom trajectory (6DOF) of a target. The 6DOF transformation parameters are used to transform multiple images to the frame time of a selected image, thus obtaining multiple images at the same frame time. These multiple images may be used to increase a resolution of the image at each frame time, obtaining the collection of the superresolution images.

System And Method For Generating Three Dimensional Images Using Lidar And Video Measurements

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US Patent:
20100271615, Oct 28, 2010
Filed:
Feb 22, 2010
Appl. No.:
12/710057
Inventors:
Richard Lee Sebastian - Frederick MD, US
Anatoley T. Zheleznyak - Great Falls VA, US
International Classification:
G01C 3/08
G01P 3/36
US Classification:
356 401, 356 28
Abstract:
A system uses range and Doppler velocity measurements from a lidar system and images from a video system to estimate a six degree-of-freedom trajectory of a target. The system estimates this trajectory in two stages: a first stage in which the range and Doppler measurements from the lidar system along with various feature measurements obtained from the images from the video system are used to estimate first stage motion aspects of the target (i.e., the trajectory of the target); and a second stage in which the images from the video system and the first stage motion aspects of the target are used to estimate second stage motion aspects of the target. Once the second stage motion aspects of the target are estimated, a three-dimensional image of the target may be generated.

System And Method For Field Calibrating Video And Lidar Subsystems Using Independent Measurements

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US Patent:
20220260693, Aug 18, 2022
Filed:
Nov 15, 2021
Appl. No.:
17/526768
Inventors:
- Grandville MI, US
Anatoley T. ZHELEZNYAK - Great Falls VA, US
International Classification:
G01S 7/497
G01S 17/42
G01S 17/58
G01S 17/66
G01S 17/89
G01S 7/481
G01S 7/4913
G01S 17/86
G06T 7/80
G06T 7/70
Abstract:
A system uses range and Doppler velocity measurements from a lidar subsystem and images from a video subsystem to estimate a six degree-of-freedom trajectory of a target. The video subsystem and the lidar subsystem may be aligned with one another, and hence calibrated, by determining, for example, a centroid of an iris determined from the lidar subsystem and a centroid of the iris determined from the video subsystem and determining a calibration offset between the two centroids.

System And Method For Increasing Resolution Of Images Obtained From A Three-Dimensional Measurement System

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US Patent:
20210041563, Feb 11, 2021
Filed:
Mar 23, 2020
Appl. No.:
16/826467
Inventors:
- Calabasas CA, US
Anatoley T. Zheleznyak - Great Falls VA, US
Assignee:
Imaging, Inc. - Calabasas CA
International Classification:
G01S 17/42
G01S 17/89
G01S 7/497
G01S 17/86
G06T 5/00
G01S 7/48
G01S 17/58
G01S 17/34
Abstract:
A system uses range and Doppler velocity measurements from a lidar system and images from a video system to estimate a six degree-of-freedom trajectory (6DOF) of a target. The 6DOF transformation parameters are used to transform multiple images to the frame time of a selected image, thus obtaining multiple images at the same frame time. These multiple images may be used to increase a resolution of the image at each frame time, obtaining the collection of the superresolution images.

System And Method For Field Calibrating Video And Lidar Subsystems Using Independent Measurements

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US Patent:
20190187258, Jun 20, 2019
Filed:
Jul 2, 2018
Appl. No.:
16/025077
Inventors:
- Pasadena CA, US
Anatoley T. Zheleznyak - Great Falls VA, US
Assignee:
StereoVision Imaging, Inc. - Pasadena CA
International Classification:
G01S 7/497
G01S 7/491
G01S 17/42
G06T 7/70
G06T 7/80
G01S 17/02
G01S 7/481
G01S 17/89
G01S 17/66
G01S 17/58
Abstract:
A system uses range and Doppler velocity measurements from a lidar subsystem and images from a video subsystem to estimate a six degree-of-freedom trajectory of a target. The video subsystem and the lidar subsystem may be aligned with one another, and hence calibrated, by determining, for example, a centroid of an iris determined from the lidar subsystem and a centroid of the iris determined from the video subsystem and determining a calibration offset between the two centroids.

System And Method For Increasing Resolution Of Images Obtained From A Three-Dimensional Measurement System

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US Patent:
20190033456, Jan 31, 2019
Filed:
May 21, 2018
Appl. No.:
15/985586
Inventors:
- Pasadena CA, US
Anatoley T. Zheleznyak - Great Falls VA, US
International Classification:
G01S 17/42
G01S 17/02
G01S 7/48
G01S 17/58
G06T 5/00
G01S 7/497
G01S 17/89
Abstract:
A system uses range and Doppler velocity measurements from a lidar system and images from a video system to estimate a six degree-of-freedom trajectory (6DOF) of a target. The 6DOF transformation parameters are used to transform multiple images to the frame time of a selected image, thus obtaining multiple images at the same frame time. These multiple images may be used to increase a resolution of the image at each frame time, obtaining the collection of the superresolution images.

System And Method For Field Calibrating Video And Lidar Subsystems Using Independent Measurements

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US Patent:
20180180723, Jun 28, 2018
Filed:
Jan 28, 2014
Appl. No.:
14/165724
Inventors:
- Chantilly VA, US
Anatoley T. Zheleznyak - Great Falls VA, US
Assignee:
Digital Signal Corporation - Chantilly VA
International Classification:
G01S 7/497
G06T 7/70
G06T 7/80
Abstract:
A system uses range and Doppler velocity measurements from a lidar subsystem and images from a video subsystem to estimate a six degree-of-freedom trajectory of a target. The video subsystem and the lidar subsystem may be aligned with one another, and hence calibrated, by determining, for example, a centroid of an iris determined from the lidar subsystem and a centroid of the iris determined from the video subsystem and determining a calibration offset between the two centroids.
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Anatoley Zheleznyak from Great Falls, VA Get Report