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Kari M Karwedsky

from Arlington, VA
Age ~46
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Related to:
Cesareo ChavezMaria Landeros, 52Jeffrey EagenGrace Myslinski, 94Robert Karwedsky, 75Linda Karwedsky, 73Mary Eagen
Connected to:
Sylvester Karweh, 68William A Karweit, 47Michael R Karwisch, 53Alexander J Karwoski, 31Benjamin R Karwoski, 36Chris Karwoski, 43Diane M Karwoski, 60Ellen Karwoski, 36Gail Karwoski, 84Stefanie R Karwoski, 34

Kari Karwedsky Phones & Addresses

  • Arlington, VA
  • 4 Skinner Brook Rd, Amherst, NH 03031
  • Manchester, NH
  • 14 Aspen Ln, Merrimack, NH 03054
  • 19 Augustus Cir, Merrimack, NH 03054
  • Knoxville, TN
  • Nashville, TN
  • Brentwood, TN

Work

Company: Bae systems information technology Nov 2016 Position: Systems engineer

Education

School / High School: Gw Investment Institute 2011 to 2012 Specialities: Business Administration

Skills

Engineering Management • Systems Engineering • Security Clearance • C4Isr • Earned Value Management • Aerospace • Dod • Government Contracting • Defense • Defence • Radar • Requirements Management • Military • System Design • System Architecture • Program Management • Matlab • Integration • Systems Design • Volunteer Management • Event Management

Industries

Defense & Space

Resumes

Resumes

Kari Karwedsky Photo 1

Systems Engineer

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Location:
4400 4Th St, Arlington, VA 22204
Industry:
Defense & Space
Work:
Bae Systems Information Technology
Systems Engineer
Ptc Jun 2014 - Jul 2016
Senior Program Manager, Global K12 Academic Programs
Bae Systems Jul 2010 - Jun 2014
Program Manager, Mission Applications Engineer, Communications and Control Solutions
Bae Systems Apr 2009 - Jun 2010
Chief of Staff, Electronics, Intelligence and Support Operating Group
Bae Systems Dec 2006 - Mar 2009
Principal Systems Engineer
Education:
Gw Investment Institute 2011 - 2012
University of Massachusetts Lowell 2000 - 2003
Master of Science, Masters, Electrical Engineering University of Tennessee, Knoxville 1995 - 2000
Bachelors, Bachelor of Science, Electrical Engineering
Skills:
Engineering Management
Systems Engineering
Security Clearance
C4Isr
Earned Value Management
Aerospace
Dod
Government Contracting
Defense
Defence
Radar
Requirements Management
Military
System Design
System Architecture
Program Management
Matlab
Integration
Systems Design
Volunteer Management
Event Management

Publications

Us Patents

Cross-System Interference Cancellation For Multicarrier Cdma And Ofdm

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US Patent:
7428261, Sep 23, 2008
Filed:
Jun 30, 2003
Appl. No.:
10/482599
Inventors:
Diane G. Mills - Wilmington MA, US
Michael J. Kotrlik - Nashua NH, US
Kari M. Karwedsky - Merrimack NH, US
Assignee:
Bae Systems Information and Electronic Systems Integration Inc. - Nashua NH
International Classification:
H04B 1/00
H03D 1/04
US Classification:
375148, 375144, 375346
Abstract:
Interference cancellation techniques for use in a wireless multicarrier communications system where signals from multiple wireless networks might be present and interfering with the detection and demodulation processes are disclosed. Interference cancellation is applied to the interfering network before removing same-system interference. By removing the contribution of all interfering systems' from a receiver's aggregate signal, the receiver is capable of detection and demodulation. Performance can be further improved by including an additional level of interference cancellation within the system of interest to separate the individual user of interest.

Tapered Slot Antenna

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US Patent:
8269685, Sep 18, 2012
Filed:
May 7, 2010
Appl. No.:
12/776005
Inventors:
Matthew M. McQuaid - Hudson NH, US
Michael J. O'Brien - Nashau NH, US
Nicolas S. Peterson - Merrimack NH, US
Basil W. Thompson - Hooksett NH, US
Duane A. Beaulieu - Brookline NH, US
Kari M. Karwedsky - Merrimack NH, US
Assignee:
BAE Systems Information and Electronic Systems Integration Inc. - Nashua NH
International Classification:
H01Q 13/10
US Classification:
343767, 343700 MS
Abstract:
Methods, antennas and other embodiments associated with impedance matching an antenna feed slot. A slot antenna includes a planar metal sheet. A feed slot opening is formed in the metal sheet. The feed slot has a first end and a second end. A tapered opening is formed in the metal sheet. Adjacent sides of the tapered opening touch the first end of the feed slot. An impedance matching star shaped opening is formed in the metal. The impedance matching star shaped opening touches the second end of the feed slot.

Frequency Mismatch Compensation For Multiuser Detection

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US Patent:
20030187928, Oct 2, 2003
Filed:
Apr 25, 2003
Appl. No.:
10/423695
Inventors:
Robert MacLeod - Nashua NH, US
Joshua Niedzwiecki - Manchester NH, US
Kari Karwedsky - Merrimack NH, US
International Classification:
G06F015/16
US Classification:
709/204000
Abstract:
Techniques for compensating for frequency mismatch between transmitters and receivers of a multiuser communication system having a plurality of users are disclosed. In particular, the mismatch of carrier frequency estimates are estimated and compensated for each user of the system. This is accomplished without increasing the training overhead of the system. Symbol phase drift and offset is computed by estimating phase error profile parameters (e.g., slope and offset). The disclosed techniques may be used to correct for symbol rotation in any one decision region, or in neighboring decision regions.

Contrast Based Image Fusion

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US Patent:
20160093034, Mar 31, 2016
Filed:
Apr 1, 2015
Appl. No.:
14/896421
Inventors:
Steven D. BECK - Austin TX, US
Derek T. ROBISON - Waltham MA, US
Michael S. CHAN - Medford MA, US
John H. KOLTOOKIAN - Medford MA, US
Mark R. MALLALIEU - Westford MA, US
Christopher M. HOULE - Nashua NH, US
Kari M. KARWEDSKY - Merrimack NH, US
International Classification:
G06T 5/50
G09G 5/02
G06T 5/00
Abstract:
A system for two color image fusion blending co-registered low light level images in the visible region of the electromagnetic spectrum with thermal infrared images maximizes the information content of the scene by detecting in which of the two image types, IR and visible, there is more structural information and increasing the weight of the pixels in the image type having the most structural information. Additionally, situational awareness is increased by categorizing image information as “scene” or “target” and colorizing the target images to highlight target features when raw IR values are above a predetermined threshold. The system utilizes Red, Green and Blue (RGB) planes to convey different information such that for targets the Red plane is used to colorize regions when raw IR exceeds the predetermined threshold. For scene images, the Green plane provides improved situational awareness due to the above weighted blend of the two image types.
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Kari M Karwedsky from Arlington, VA, age ~46 Get Report