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Pavel V Nikitin

from Leavenworth, WA
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Also known as:
Nikitin Pavel
Related to:
Nikitin V Pavel, 50Nikitin V Pavel, 45Elena A Erosheva, 49
Connected to:
Alexei N Nikitin, 62Anya Nikitina, 79Dmitriy Nikitin, 50Edward B Nikitin, 56John N Nikitin, 82Nikolay Nikitin, 65Shelby M Nikitin, 42William D Nikitin, 49Karina Nikitkin, 34Charles Nikitopoulos, 83

Pavel Nikitin Phones & Addresses

  • Leavenworth, WA
  • Seattle, WA
  • Logan, UT
  • Pittsburgh, PA

Resumes

Resumes

Pavel Nikitin Photo 1

Senior Software Engineer

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Location:
Seattle, WA
Industry:
Information Technology And Services
Work:
Altoros Systems Oct 2008 - Aug 2012
Ruby on Rails Developer
CPM Group Feb 2008 - Sep 2008
Ruby on Rails Developer
Mobile Solutions Sep 2006 - Dec 2006
PHP Developer
Education:
Belarusian National Technical University 2005 - 2009
Skills:
Ruby on Rails
Ruby
Angularjs
Python
Django
Gruntjs
Bower
Git
Mysql
Jquery
Javascript
Subversion
Css
Rspec
Html
Ajax
Debian
Rest
Programming
Postgresql
Open Source
Eclipse
Soap
Test Driven Development
Haml
Cucumber
Nginx
Sqlite
Php
Interests:
Social Games
Project Management
Rails
Aikido
Android Development
3D Development
Augmented Reality
Open Source
Aircraft Building
Swimming
Languages:
English
Pavel Nikitin Photo 2

Owner

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Location:
Seattle, WA
Industry:
Architecture & Planning
Work:
Nikitin's Group
Owner
Education:
Izhevsk State Technical University (Istu) 1997 - 2002
Skills:
Управление Разработкой Конструкторской Документацией
Проектирование Дымовых Труб
Ветровые Воздействия На Высотные Сооружения
Проектирование "Архитектурных" Металлоконструкций
Проектирование Металлоконструкций
Languages:
Russian
English
Pavel Nikitin Photo 3

Lead Engineer

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Location:
Seattle, WA
Industry:
Electrical/Electronic Manufacturing
Work:
Intermec By Honeywell
Lead Engineer
Education:
Novosibirsk State University, Department of Economics 1990 - 1995
Pavel Nikitin Photo 4

Senior Staff Antenna Designer

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Location:
Lynnwood, WA
Industry:
Information Technology And Services
Work:
Impinj
Senior Staff Antenna Designer
Honeywell Apr 2004 - Sep 2017
Principal Rf Engineer
University of Washington Sep 2002 - Apr 2004
Research Associate
Education:
Carnegie Mellon University 1998 - 2002
Doctorates, Doctor of Philosophy, Computer Engineering Utah State University 1995 - 1998
Master of Science, Masters, Computer Engineering Novosibirsk State University, Department of Economics 1990 - 1995
Bachelors, Bachelor of Science, Physics
Skills:
Rfid
Antennas
Communication Systems
Rf Design
Electromagnetics
Rf
Wireless
Rf Engineering
Ansys
Pavel Nikitin Photo 5

Engineer

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Location:
Seattle, WA
Industry:
Telecommunications
Work:
Intermec By Honeywell
Engineer
Pavel Nikitin Photo 6

Pavel Nikitin

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Skills:
Microsoft Excel
Microsoft Office
Pavel Nikitin Photo 7

Pavel Nikitin

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Location:
United States

Publications

Us Patents

Tunable Rfid Tag For Global Applications

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US Patent:
7323977, Jan 29, 2008
Filed:
Mar 15, 2005
Appl. No.:
11/081239
Inventors:
Venkata S. Kodukula - Bothell WA, US
Pavel Nikitin - Seattle WA, US
For Sander Lam - Bothell WA, US
Assignee:
Intermec IP Corp. - Woodland Hills CA
International Classification:
G08B 26/00
G08B 13/14
H01Q 21/12
US Classification:
340505, 3405721, 3405727, 3405728, 340 101, 343815, 343834, 342 42, 342 51
Abstract:
An RF transponder comprises a transponder integrated circuit, an antenna connected to the transponder integrated circuit, and at least one parasitic element adapted to interact electrically with the antenna and thereby affect antenna impedance. The orientation of the parasitic element with respect to the antenna is selected to achieve a desired operational frequency band for the RF transponder. Specifically, the spacing between the antenna and the parasitic element is selected to achieve the desired operational frequency band. For example, a first selected spacing may enable an operational frequency band suitable for a first geographic region (e. g. , the United States), a second selected spacing may enable an operational frequency band suitable for a second geographic region (e. g. , Europe), and a third selected spacing may enable an operational frequency band suitable for a third geographic region (e. g. , Japan).

Systems And Methods For Wirelessly Marking Media

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US Patent:
7724142, May 25, 2010
Filed:
Sep 27, 2007
Appl. No.:
11/862950
Inventors:
Pavel Nikitin - Seattle WA, US
Venkata Kodukula - Bothell WA, US
For Sander Lam - Bothell WA, US
Assignee:
Intermec IP Corp. - Everett WA
International Classification:
G08B 13/14
US Classification:
3405727, 3405721, 340 101, 3405728
Abstract:
A media marking transponder system includes a media fastener and a wireless transponder circuit coupled to the media fastener. The antenna for the wireless transponder circuit has a first effective length when no piece of media is fastened to the media fastener and a second, different effective length when at least one piece of media is fastened to the media fastener.

Near-Field And Far-Field Antenna-Assembly And Devices Having Same

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US Patent:
7843347, Nov 30, 2010
Filed:
Jan 30, 2008
Appl. No.:
12/022911
Inventors:
Pavel Nikitin - Seattle WA, US
Venkata Kodukula - Bothell WA, US
Sprague Ackley - Seattle WA, US
For Sander Lam - Bothell WA, US
Assignee:
Intermac IP Corp. - Everett WA
International Classification:
G08B 13/14
US Classification:
3405727, 3405391, 3405681, 340 101
Abstract:
Systems, methods, and devices wirelessly communicate in a near-field region and a far-field region. A device may include a near-field antenna and a far-field antenna. The device may be configured to selectively operate in a near-field mode, employing the near-field antenna, and/or in a far-field mode, employing the far-field antenna, and/or in a joint mode, employing both the near-field antenna and the far-field antenna separately or concurrently. One type of device may be a wireless communications data-reader device configured for both near-field and far-field communications. Another type of device may be a wireless communications data-provider device configured for both near-field and far-field communications.

Automatic Data Collection Device, Method And Article

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US Patent:
7893813, Feb 22, 2011
Filed:
Jul 28, 2005
Appl. No.:
11/191616
Inventors:
Pavel Nikitin - Seattle WA, US
Venkata Kodukula - Bothell WA, US
For Sander Lam - Bothell WA, US
Andrew Reynolds - Bothell WA, US
Rene Martinez - Seattle WA, US
Assignee:
Intermec IP Corp. - Everett WA
International Classification:
H04Q 5/22
G08B 13/14
US Classification:
340 101, 340 104, 3405727, 235491, 235449
Abstract:
A radio frequency identification system comprises a radio-frequency identification substrate and an interrogator. In one embodiment, the radio-frequency identification substrate comprises a plurality of radio-frequency identification devices. In one embodiment, a controller on the substrate controls a first one of the plurality of radio-frequency identification devices based on a state of a second one of the plurality of radio-frequency identification devices. In one embodiment, an antenna system includes an S-shaped portion electrically coupled to an integrated circuit along a central portion of the S-shaped portion. Adjusting the parameters of the segments making up the S-shaped portion controls performance characteristics of a radio-frequency identification device.

Configurable Rfid Tag With Protocol And Band Selection

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US Patent:
7952464, May 31, 2011
Filed:
Oct 5, 2006
Appl. No.:
11/545020
Inventors:
Pavel Nikitin - Seattle WA, US
Venkata Kodukula - Bothell WA, US
For Sander Lam - Bothell WA, US
Assignee:
Intermec IP Corp. - Everett WA
International Classification:
H04Q 5/22
US Classification:
340 101, 3405721, 340 1033, 340 102, 455275
Abstract:
A multi-band and/or multi-protocol, configurable, RFID tag is provided. The tag can include one or more electrical or mechanical selectors for selecting from among multiple frequency bands and communication protocols. In some embodiments, a signal band and protocol can be detected automatically and selection among bands and protocols can be performed automatically. In some embodiments, one or more externally accessibly switches can be actuated by a user to select a band and/or protocol.

Method And Apparatus For Rfid Tag Detection And Characterization

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US Patent:
7978074, Jul 12, 2011
Filed:
Apr 7, 2008
Appl. No.:
12/099051
Inventors:
Pavel Nikitin - Seattle WA, US
Venkata Kodukula - Bothell WA, US
Rene Martinez - Seattle WA, US
Harley Heinrich - Snohomish WA, US
Assignee:
Intermec IP Corp. - Everett WA
International Classification:
G08B 13/14
US Classification:
3405721
Abstract:
This disclosure discloses methods and apparatus for detecting and characterizing radio-frequency identification (RFID) tags.

Rfid Tags With Enhanced Range And Bandwidth Obtained By Spatial Antenna Diversity

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US Patent:
8077044, Dec 13, 2011
Filed:
Mar 2, 2009
Appl. No.:
12/396361
Inventors:
Pavel Nikitin - Seattle WA, US
Sander Lam - Everett WA, US
Assignee:
Intermec IP Corp. - Everett WA
International Classification:
G08B 13/14
US Classification:
3405727
Abstract:
Spatial antenna diversity is used with RFID tags to reduce sensitivity to multi-path fading. RFID tags can use a single multi-port chip or multiple multi-port chips. The ports of the chip or chips are coupled to separated feedpoints on one or more antennas.

Stochastic Communication Protocol Method And System For Radio Frequency Identification (Rfid) Tags Based On Coalition Formation, Such As For Tag-To-Tag Communication

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US Patent:
8199689, Jun 12, 2012
Filed:
Sep 21, 2006
Appl. No.:
12/067554
Inventors:
Paul A. Maltseff - Edmonds WA, US
Steven Winter - Everett WA, US
Pavel Nikitin - Seattle WA, US
Venkata Kodukula - Bothell WA, US
Elena Erosheva - Seattle WA, US
Assignee:
Intermec IP Corp. - Everett WA
International Classification:
H04H 20/71
US Classification:
370312, 3403101
Abstract:
Data carriers (such as RFID tags) are formed into clusters of data carriers. Each cluster has at least one bridge data carrier that can communicate with a bridge data carrier of another cluster, thereby allowing data carriers in each cluster to communicate directly or indirectly with each other using a stochastic communication protocol method. Direct tag-to-tag communication capability is provided between data carriers in each cluster and/or between clusters. The data carriers can backscatter and modulate a carrier wave from a source, thereby using the backscattered and modulated carrier wave to convey data to each other.
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Pavel V Nikitin from Leavenworth, WA Get Report