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Mark C Wieman, 517525 Roosevelt Way, Seattle, WA 98115

Known as:
Mark C Wierman Mark C Weiman
Related to:
Olivia A Mariettakes 61 Rebecca L Willhight 39 Barbara L Cain Carin L Bruce 55 Kenny L Wieman 76 Mindy L Cain 48 Amanda Cain 38 Jason R Coke 49 Amanda Cain 37 Gary M Cain 45 Jill D Coke 48 Elmo W Cain Joel M Cain 53 Ellen M Wieman 76 Andrea J Cain 50

Mark Wieman Phones & Addresses

7525 Roosevelt Way, Seattle, WA 98115    206-3251422    206-5255770   

1103 Republican St, Seattle, WA 98102    206-3251422   

1100 Queen Anne Ave, Seattle, WA 98109    206-2834367   

McChord AFB, WA   

Work

Company: Beam design Address: Po Box 14060, Seattle, WA 98114 Phones: 206-3251422 Position: Owner Industries: Computer Processing and Data Preparation and Processing Services
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Mentions for Mark C Wieman

Career records & work history

License Records

Mark T Wieman

Licenses:
License #: 301326 - Active
Category: EMS Licensing
Issued Date: Jun 10, 2016
Expiration Date: Jun 30, 2018
Type: EMT-Basic

Mark Wieman resumes & CV records

Resumes

Mark Wieman Photo 23

Vice President Of User Experience

Location:
Seattle, WA
Industry:
Design
Work:
www.markwieman.com - Greater Seattle Area since Oct 2006
Freelance UX Consultant Fell Swoop Oct 2010 - Jun 2012
Partner & Senior User Experience Designer Blink Apr 2006 - May 2010
User Experience Consultant Seattle University 2001 - Apr 2006
Director of Web Communications Beam Design 1999 - 2001
Principal and Founder Getty Images 1999 - 1999
Information Architect Bowne Internet Solutions 1998 - 1999
Information Architect Sitewerks 1997 - 1998
Web Developer Seanet 1996 - 1997
Web Designer
Education:
University of Washington 2004 - 2006
Master of Communication, Digital Media University of Washington 1993 - 1995
Bachelor of Arts in Business, Marketing
Skills:
User Experience, Interaction Design, Information Architecture, Usability Testing, User Experience Design, User Interface Design, Usability, Wireframes, User Interface, Information Design, Mobile Applications, User Scenarios, Mobile Devices, User Centered Design, Rapid Prototyping, Experience Design, Web Applications, Mobile Internet, User Research, Web Project Management, E Commerce, Wire Framing, Contextual Inquiry, Heuristic Evaluation, Usability Engineering, Web Design, Axure, Persona, Mobile Design, Wireframing
Mark Wieman Photo 24

Mark Wieman

Mark Wieman Photo 25

Mark Wieman

Location:
Greater Seattle Area
Industry:
Internet

Publications & IP owners

Us Patents

Methods And Apparatus For Locating Rfid Tags

US Patent:
2020012, Apr 23, 2020
Filed:
Dec 17, 2019
Appl. No.:
16/717249
Inventors:
- New York NY, US
Adam Blair - New York NY, US
Ken Seiff - Hartsdale NY, US
Michael Murphy - Brooklyn NY, US
Mark Wieman - Seattle WA, US
Tamara Adlin - Seattle WA, US
International Classification:
G01S 5/02
G06K 7/10
G01S 5/04
Abstract:
A radio frequency identification (RFID) system includes an array of antennas to distinguish line-of-sight (LOS) paths from non-line-of-sight (NLOS) paths. The distance between adjacent antennas in the array of antennas is less than half the wavelength of the radio frequency (RF) signal of the system. Each antenna in the antenna array is also digitally controlled to change relative phase difference among the antennas, thereby allowing digital steering of the array of antennas across angles of arrival (AOAs) between 0 and π. The digital steering generates a plot of signal amplitudes as a function of AOAs. LOS paths are distinguished from NLOS paths based on the shapes (e.g., depth, gradient, etc.) of local extremes (e.g., maxima or minima) in the plot.

Methods And Apparatus For Locating Rfid Tags

US Patent:
2020009, Mar 26, 2020
Filed:
Sep 24, 2019
Appl. No.:
16/579949
Inventors:
- New York NY, US
Adam Blair - New York NY, US
Ken Seiff - Hartsdale NY, US
Michael Murphy - Brooklyn NY, US
Mark Wieman - Seattle WA, US
Tamara Adlin - Seattle WA, US
International Classification:
G01S 5/02
G06K 7/10
G01S 5/04
Abstract:
A radio frequency identification (RFID) system includes an array of antennas to distinguish line-of-sight (LOS) paths from non-line-of-sight (NLOS) paths. The distance between adjacent antennas in the array of antennas is less than half the wavelength of the radio frequency (RF) signal of the system. Each antenna in the antenna array is also digitally controlled to change relative phase difference among the antennas, thereby allowing digital steering of the array of antennas across angles of arrival (AOAs) between 0 and π. The digital steering generates a plot of signal amplitudes as a function of AOAs. LOS paths are distinguished from NLOS paths based on the shapes (e.g., depth, gradient, etc.) of local extremes (e.g., maxima or minima) in the plot.

Possible Relatives

Don M Wieman  Gary W Wieman  Henry A Wieman  James L Wieman  Jean D Wieman  Jennifer M Wieman  Mark W Johnson  Mark E Stamps  Mark Stancil 

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