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Jeromy P Rezac

from Plymouth, MA
Age ~53
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Also known as:
Jeromy B Rezac, Jeremy P Rezac, Jeromy P Rezar, Jermey Rezac
Phone and address:
420 Little Sandy Pond Rd, Plymouth, MA 02360
(410) 638-2460
Connected to:
Caitlin A Rezac, 36Caroline L Rezac, 69David Rezac, 48Kenneth R Rezac, 74Kyle M Rezac, 35Martin H Rezac, 77Mary F Rezac, 71Nancy M Rezac, 70Peggy L Rezac, 74Ryan R Rezac, 50

Jeromy Rezac Phones & Addresses

  • 420 Little Sandy Pond Rd, Plymouth, MA 02360 (410) 638-2460
  • Bel Air, MD
  • Mason, OH
  • Albuquerque, NM
  • Hampden, ME
  • Stillwater, OK
  • Breckenridge, MN
  • Tulsa, OK
  • Orono, ME
  • 3095 Spalding Dr, Mason, OH 45040 (410) 638-2460

Work

Company: L-3 communications May 2011 Address: Mason, OH Position: Technical program manager

Education

Degree: Doctor of Philosophy (Ph.D.) School / High School: Oklahoma State University 1995 to 2002 Specialities: Physics

Skills

Systems Engineering • Engineering Management • Sensors • Program Management • Dod • System Design • Aerospace • Earned Value Management • Simulations • Integration • Spectroscopy • Optics • Requirements Management • System Architecture • Remote Sensing • Software Engineering

Industries

Defense & Space

Resumes

Resumes

Jeromy Rezac Photo 1

Program Manager

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Location:
420 Little Sandy Pond Rd, Plymouth, MA 02360
Industry:
Defense & Space
Work:
L-3 Communications - Mason, OH since May 2011
Technical Program Manager
ITT Corporation - Albuquerque, New Mexico Area 2004 - 2011
Principal Remote Sensing Scientist
Education:
Oklahoma State University 1995 - 2002
Doctor of Philosophy (Ph.D.), Physics
Skills:
Systems Engineering
Engineering Management
Sensors
Program Management
Dod
System Design
Aerospace
Earned Value Management
Simulations
Integration
Spectroscopy
Optics
Requirements Management
System Architecture
Remote Sensing
Software Engineering

Publications

Us Patents

Spectrograph Calibration Using Known Light Source And Raman Scattering

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US Patent:
7583378, Sep 1, 2009
Filed:
May 5, 2006
Appl. No.:
11/418107
Inventors:
Jeromy P. Rezac - Albuquerque NM, US
Thomas H. Chyba - Tijeras NM, US
Assignee:
ITT Manufacturing Enterprises, Inc. - Wilmington DE
International Classification:
G01J 3/44
G01N 21/65
US Classification:
356301, 356326, 356328
Abstract:
A method is provided for calibrating a spectrometer device used for Raman scattering analysis. A predetermined dispersion curve for a diffraction grating or spectrograph of the spectrometer device is modified based on spectrum data associated with detected dispersed light from a calibration light source to produce a modified dispersion curve. The wavelength of a Raman light source on a light detection device is determined. Calibration data for the spectrometer device is computed from the Raman line peak positions for the first chemical, the wavelength on the detection device of the Raman light source and the modified dispersion curve.

Method, Apparatus And System For Rapid And Sensitive Standoff Detection Of Surface Contaminants

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US Patent:
7796251, Sep 14, 2010
Filed:
Mar 20, 2007
Appl. No.:
11/688434
Inventors:
Patrick Louis Ponsardin - Placitas NM, US
Christopher Scott Kletecka - Willoughby Hills OH, US
Jeromy Paul Rezac - Albuquerque NM, US
Assignee:
ITT Manufacturing Enterprises, Inc. - Wilmington DE
International Classification:
G01J 3/44
US Classification:
356301
Abstract:
Systems and methods for fast and sensitive standoff surface-hazard detection with high data throughput, high spatial resolution and high degree of pointing flexibility. The system comprises a first hand-held unit that directs an excitation beam onto a surface that is located a distance away from the first unit and an optical subsystem that captures scattered radiation from the surface as a result of the beam of light. The first unit is connected via a link that includes a bundle of optical fibers, to a second unit, called the processing unit. The processing unit comprises a fiber-coupled spectrograph to convert scattered radiation to spectral data, and a processor that analyzes the collected spectral data to detect and/or identify a hazardous substance. The second unit may be contained within a body-wearable housing or apparatus so that the first unit and second unit together form a man-portable detection assembly. In one embodiment, the system can continuously and without interruptions scan a surface from a 1-meter standoff while generating Raman spectral-frames at rates of 25 Hz.

Systems And Methods For Remote Unmanned Raman Spectroscopy

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US Patent:
8159662, Apr 17, 2012
Filed:
Sep 23, 2008
Appl. No.:
12/235893
Inventors:
Jeromy Paul Rezac - Albuquerque NM, US
Howard N. LaValley - Albuquerque NM, US
Noah Scott Higdon - Herndon VA, US
Thomas Stewart McKechnie - Albuquerque NM, US
Assignee:
Exelis Inc. - McLean VA
International Classification:
G01J 3/44
US Classification:
356301
Abstract:
A Raman spectroscopy sensor integrated with an unmanned ground vehicle (UGV) includes a UGV having a robot arm and a camera mounted on the robot arm. A laser and telescope associated with a Raman sensor are mounted on the robot arm in such a way as to point in substantially the same direction in which the camera is pointed. A Raman spectral data acquisition and control module is mounted on the UGV and is configured to receive Raman spectral data from the telescope. A remote base station having a display and a data processing and analysis module is configured to receive data from the data acquisition and control module and to display for an operator images from the camera and information related to the Raman sensor. An autofocus system is preferably employed to automatically control telescope focus and thereby enable the Raman sensor to operate over a wide range, e. g. , 0. 5 m to 10 m.

Virtual Scene Generator And Probability Of Interception System And Method

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US Patent:
8374832, Feb 12, 2013
Filed:
Dec 6, 2007
Appl. No.:
11/951679
Inventors:
Christopher S. Kletecka - Willoughby Hills OH, US
Patrick L. Ponsardin - Placitas NM, US
Jeromy P. Rezac - Albuquerque NM, US
Assignee:
Exelis Inc. - McLean VA
International Classification:
G06G 7/48
US Classification:
703 6
Abstract:
Techniques are provided for simulating dissemination of at least one target substance in a scene that has been contaminated with the at least one target substance. Data is received from a user to select at least one target substance whose dissemination is to be simulated as well as parameters for the scene within which the simulation is to be performed. Simulation of the dissemination is performed and data can be displayed to illustrate, statistically and/or graphically, the results of the simulation. The simulation may include simulating interrogation of at least one surface in the scene with a sensor that detects ambient or scattered radiation from the at least one surface. Data may then be generated that indicates overlap of an interrogation spot of the sensor with the at least one target substance on at least one surface in the scene. A user may change parameters and repeat the simulation. The data generated by the simulation techniques is useful in designing sensors as well as developing strategies for deployment of sensors for certain applications.

Air Sampler Module For Enhancing The Detection Capabilities Of A Chemical Detection Device Or System

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US Patent:
20080007728, Jan 10, 2008
Filed:
Jul 7, 2006
Appl. No.:
11/481885
Inventors:
Thomas Wayne Schneider - Fairfax VA, US
James Pendell Jones - Baltimore MD, US
Wayne Armstrong - Placitas NM, US
Jeromy Rezac - Albuquerque NM, US
Claudia Randolph - Fairfax VA, US
Robert Almassy - Alexandria VA, US
International Classification:
G01N 1/00
G01J 3/44
G01N 21/65
US Classification:
356301, 356 36
Abstract:
An air sampler module is provided for use with a detection device that monitors liquids and/or solids on a surface using spectroscopy techniques. The air sampler module comprises a housing, an intake port for collecting air containing airborne threats to be analyzed by the detection device, and a port to permit communication of an optical transceiver of the detection device into the housing to permit analysis of the collected air. Thus, the capabilities of a spectroscopy detection system are expanded to include the ability to analyze airborne threats.

Standoff Explosives Detector Using Deep-Uv Raman Spectroscopy

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US Patent:
20120044478, Feb 23, 2012
Filed:
Jun 1, 2011
Appl. No.:
13/150757
Inventors:
Ryan E. Da Re - Bristow VA, US
Howard N. LaValley - Albuquerque NM, US
Jeromy Paul Rezac - Bel Air MD, US
James E. Pendell Jones - Baltimore MD, US
Assignee:
ITT Manufacturing Enterprises, Inc. - Wilmington DE
International Classification:
G01J 3/44
US Classification:
356 51, 356301
Abstract:
A method of performing Raman spectroscopy, and an apparatus for performing the method, including irradiating, with laser light, a trace amount of a target substance disposed on a painted surface, receiving reflected laser light and a Raman return signal from the trace amount of the target substance, processing the Raman return signal using, at least, a spectrograph and camera to obtain a Raman signature for the target substance, and identifying the target substance based on the Raman signature for the target substance and a database of Raman signatures. The laser light wavelength may be selected based on a ratio of Raman return signal power to fluorescence power.
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Jeromy P Rezac from Plymouth, MA, age ~53 Get Report