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Kwan Y LeeChampaign, IL

Known as:
Kawan Y Lee Lee Kwan
Related to:
Claire Naeun Lee 48 Edward Sunku Lee 57

Kwan Lee Phones & Addresses

Champaign, IL   

Evanston, IL   

Chicago, IL   

Walnut Creek, CA   

West New York, NJ   

Cambridge, MA   

New Haven, CT   

Los Angeles, CA   

Work

Company: Novel physics & dosimetry solutions, inc Nov 2010 Position: Junior physicist/dosimetrist

Education

School / High School: Southern Illinois University- Carbondale, IL 1982 Specialities: B.S.E.E
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Mentions for Kwan Y Lee

Career records & work history

Lawyers & Attorneys

Kwan Lee Photo 1

Kwan Lee - Lawyer

Office:
Lee & Co.
ISLN:
919751253
Admitted:
1995

Medicine Doctors

Kwan S. Lee

Specialties:
Cardiovascular Disease, Interventional Cardiology
Work:
University Of Arizona Medical Center Health Network South Campus
3950 S Country Clb Rd STE 130, Tucson, AZ 85714
520-8742700 (phone) 520-8742701 (fax)
Sarver Heart Center
1501 N Campbell Ave, Tucson, AZ 85724
520-6948888 (phone) 520-6262376 (fax)
Banner University Medical Center South Campus Cardiology
2800 E Ajo Way, Tucson, AZ 85713
520-8743278 (phone) 520-8747076 (fax)
Education:
Medical School
Univ of Dublin, Trinity Coll, Fac of Hlth Sci, Dublin, Ireland
Graduated: 2000
Procedures:
Angioplasty, Cardiac Stress Test, Cardiac Catheterization, Cardioversion, Continuous EKG, Echocardiogram, Electrocardiogram (EKG or ECG), Pacemaker and Defibrillator Procedures
Conditions:
Acute Myocardial Infarction (AMI), Angina Pectoris, Heart Failure, Ischemic Heart Disease, Aortic Regurgitation, Aortic Valvular Disease, Atrial Fibrillation and Atrial Flutter, Cardiac Arrhythmia, Cardiomyopathy, Carditis, Conduction Disorders, Congenital Anomalies of the Heart, Endocarditis, Mitral Valvular Disease, Paroxysmal Supreventricular Tachycardia (PSVT), Pericardidtis, Valvular Heart Disease
Languages:
English, Spanish
Description:
Dr. Lee graduated from the Univ of Dublin, Trinity Coll, Fac of Hlth Sci, Dublin, Ireland in 2000. He works in Tucson, AZ and 2 other locations and specializes in Cardiovascular Disease and Interventional Cardiology. Dr. Lee is affiliated with Banner University Medical Center, Banner University Medical Center South Campus and Southern Arizona VA Health Care System.
Kwan Lee Photo 2

Kwan Seung Lee

Specialties:
Internal Medicine
Cardiovascular Disease
Interventional Cardiology
Cardiology
General Practice
Education:
Trinity College, University Of Dublin (2000)
Mayo Medical School (2008) *Cardiovascular Disease
Emory University Hospital *Interventional Cardiology
Kwan Lee Photo 3

Kwan Il Lee

Specialties:
Anesthesiology
Critical Care Medicine
Pain Medicine
Education:
Chonnam National University (1967)

Kwan Lee resumes & CV records

Resumes

Kwan Lee Photo 22

President At Martplan Insurance Agency Inc.

Position:
President at Martplan Insurance Agency Inc.
Location:
La Habra, California
Industry:
Insurance
Work:
Martplan Insurance Agency Inc. since Mar 2007
President American Sterling Insurance Company Apr 1999 - Apr 2005
Chief Operarating Officer
Education:
Whittier College 1984 - 1988
Kwan Lee Photo 23

Industrial Design Manager In Retail

Position:
Industrial Design Manager in Retail at NCR Corporation
Location:
Duluth, Georgia
Industry:
Consumer Electronics
Work:
NCR Corporation - Duluth, GA since Oct 2012
Industrial Design Manager in Retail Garmin International - Olathe, Kansas Mar 2008 - Oct 2012
Sr. Industrial Designer International Truck and Engine - Fort Wayne, IN Sep 2004 - Mar 2008
Sr. Industrial Designer General Motors - Warren, Michigan Mar 2000 - Nov 2003
Creative Designer Geoffrey Allen Corp - Secaucus, New Jersey Mar 1998 - May 2000
Industrial Designer
Education:
Pratt Institute 2003 - 2007
bachelor, Industrial Design
Skills:
Solidworks, KeyShot, Sketchbook Pro, Corel Draw, Adobe CS, MS Office Suite
Languages:
English
Korean
Kwan Lee Photo 24

Kwan Lee

Location:
United States
Kwan Lee Photo 25

Chief Of Cardiology, Director Of Cardiac Cath Lab, Director Of Cardiovascular Research Uahn South Campus

Position:
Assistant Professor of Medicine at The University of Arizona Health Network
Location:
Tucson, Arizona
Industry:
Medical Practice
Work:
The University of Arizona Health Network - University of Arizona Medical Center South Campus since 2009
Assistant Professor of Medicine Emory University School of Medicine - Greater Atlanta Area 2008 - 2009
Interventional Cardiology Fellow Mayo Clinic Arizona 2005 - 2008
Cardiology Fellow Mayo Clinic Arizona - Phoenix, Arizona Area 2002 - 2005
Internal Medicine Resident Mater Misericordiae University Hospital - Dublin, Ireland 2001 - 2002
Medical Senior House Officer St. James's Hospital - Dublin, Ireland 2000 - 2001
Intern
Education:
Trinity College, Dublin 1995 - 2000
Bachelor of Medicine, Bachelor of Surgery (MBBS), Medicine Kolej Tuanku Ja'afar 1991 - 1995
Kwan Lee Photo 26

Country Program Director, Navy International Program Office

Position:
Country Programs Director for Korea at US Navy, Foreign Area Officer at US Navy, Commander at U. S. Navy
Location:
United States
Industry:
Military
Work:
US Navy - Navy International Programs Office since Jun 2011
Country Programs Director for Korea US Navy since Sep 2006
Foreign Area Officer U. S. Navy since May 1990
Commander JUSMAG-K Nov 2006 - Jun 2011
Director, Navy and Marine Corps Programs US Navy Aug 1990 - Aug 2006
Submariner Comander, US Naval Forces Korea 2001 - 2004
Det AOIC CCDG-1 2000 - 2001
Submarine Ops
Education:
Brenau University 1998 - 1999
MBA, Business Administration United States Naval Academy 1986 - 1990
BS, Mechnical Engineering
Kwan Lee Photo 27

Student At Cornell University

Location:
Vienna, Virginia
Industry:
Chemicals
Education:
TJHSST 2009 - 2012
Kwan Lee Photo 28

Kwan Lee

Location:
United States
Kwan Lee Photo 29

Kwan Lee

Location:
United States

Publications & IP owners

Us Patents

Integrated Circuits With Reduced Interconnect Overhead

US Patent:
7084664, Aug 1, 2006
Filed:
Jun 14, 2004
Appl. No.:
10/867456
Inventors:
Kwan Yee Lee - Hayward CA, US
Martin Langhammer - Salisbury, GB
Ali H. Burney - Fremont CA, US
Assignee:
Alter Corporation - San Jose CA
International Classification:
G06F 7/38
H03K 19/173
H04Q 7/00
H04Q 7/28
US Classification:
326 38, 326 39, 370 581, 370 77, 370314, 370341
Abstract:
Integrated circuits are provided that use on-chip data compression and decompression to minimize consumption of interconnect resources. Parallel-to-serial converter circuitry can use time-division multiplexing techniques to compress data. The compressed data may be conveyed between circuit blocks on the integrated circuit using a reduced number of parallel interconnect conductors. After the compressed data has been conveyed to its destination, a serial-to-parallel converter may use time-division demultiplexing techniques to decompress the data. Interconnect resources may be shared by dedicated circuits. With this arrangement, signals can be selectively steered through the appropriate dedicated circuitry to either maximize performance or to use compression and decompression to minimize interconnect resource consumption.

Trellis Decoder With Soft Decision Outputs

US Patent:
6222889, Apr 24, 2001
Filed:
Feb 4, 1998
Appl. No.:
9/020590
Inventors:
Kwan Yee Lee - San Francisco CA
Assignee:
Analog Devices, Inc. - Norwood MA
International Classification:
H04L 2302
US Classification:
375265
Abstract:
A trellis decoding system is provided having a memory for storing a sequence of received signals. The signals have been encoded prior to transmission by a trellis encoder such that each of a predetermined plurality of symbols represents an allowed transition from an originating state to a predetermined limited number of terminating states. The system includes a trellis decoder for decoding the sequence of received signals into a corresponding sequence of the symbols. A soft decision generator is provided. The soft decision generator is responsive to the signals stored in the memory and to the output of the trellis decoder and determines a soft decision parameter representative of confidence level of the trellis decoder in properly decoding the received signal into each one of the symbols. The determined soft decision parameter is tagged to each one of such symbols subsequent to the trellis decoder decoding the sequence of received signals into the corresponding sequence of symbols.

Hybrid Display Integratable Antennas Using Touch Sensor Trace And Edge Discontinuity Structures

US Patent:
2019034, Nov 14, 2019
Filed:
Feb 13, 2019
Appl. No.:
16/274851
Inventors:
- Santa Clara CA, US
Adesoji J. Sajuyigbe - Mountain View CA, US
Kwan Ho Lee - Mountain View CA, US
Bryce D. Horine - Portland OR, US
Harry G. Skinner - Beaverton OR, US
Anand S. Konanur - San Jose CA, US
Ulun Karacaoglu - San Diego CA, US
International Classification:
G06F 3/044
H01Q 5/371
H01Q 1/44
H01Q 1/24
H01Q 19/30
H01Q 9/42
H01Q 1/48
H01Q 1/38
Abstract:
A touch panel for a display may include a touch sensor with a plurality of electrode traces. A first portion of the plurality of electrode traces may form sensing lines configured to receive touch input. The touch sensor includes an edge dummy area between an edge of the touch sensor and an electrode trace of a remaining portion of the plurality of electrode traces. The edge dummy area may be located outside of the sensing lines. The touch panel may further include an antenna with a radiation structure and a ground structure. The radiation structure may be located within a routing traces area outside of the touch sensor. The ground structure may be located within the edge dummy area. The ground structure may include an electrode trace of the plurality of electrode traces located within the edge dummy area of the touch sensor.

Radio Antenna Integration In A Mobile Computing Device

US Patent:
2019000, Jan 3, 2019
Filed:
Jun 30, 2017
Appl. No.:
15/640413
Inventors:
- Santa Clara CA, US
Kwan Ho Lee - Mountain View CA, US
Ulun Karacaoglu - San Diego CA, US
Manish A. Hiranandani - Santa Clara CA, US
Songnan Yang - San Jose CA, US
Assignee:
Intel Corporation - Santa Clara CA
International Classification:
H01Q 1/22
G06F 1/16
Abstract:
Techniques for integrating a plurality of radio antennas in an electronic device are described. An example of an electronic device includes a display housing with a display screen and top bezel disposed above the display screen, and a plurality of components disposed in the top bezel. The plurality of components include a first cellular communication antenna disposed on a first side of the top bezel, and a second cellular communication antenna disposed on a second side of the top bezel opposite the first side. The plurality of components also include a first WiFi antenna disposed adjacent to the second cellular communication antenna, and a second WiFi antenna disposed adjacent to the second cellular communication antenna on an opposite side from the first WiFi antenna.

Hybrid Display Integratable Antennas Using Touch Sensor Trace And Edge Discontinuity Structures

US Patent:
2018027, Sep 27, 2018
Filed:
Mar 21, 2017
Appl. No.:
15/465261
Inventors:
- Santa Clara CA, US
Adesoji J. Sajuyigbe - Mountain View CA, US
Kwan Ho Lee - Mountain View CA, US
Bryce D. Horine - Portland OR, US
Harry G. Skinner - Beaverton OR, US
Anand S. Konanur - San Jose CA, US
Ulun Karacaoglu - San Diego CA, US
International Classification:
G06F 3/044
H01Q 1/48
H01Q 1/24
H01Q 9/04
H01Q 9/28
Abstract:
A touch panel for a display may include a touch sensor with a plurality of electrode traces. A first portion of the plurality of electrode traces may form sensing lines configured to receive touch input. The touch sensor includes an edge dummy area between an edge of the touch sensor and an electrode trace of a remaining portion of the plurality of electrode traces. The edge dummy area may be located outside of the sensing lines. The touch panel may further include an antenna with a radiation structure and a ground structure. The radiation structure may be located within a routing traces area outside of the touch sensor. The ground structure may be located within the edge dummy area. The ground structure may include an electrode trace of the plurality of electrode traces located within the edge dummy area of the touch sensor.

Integrated Antenna With Display Uniformity

US Patent:
2017009, Mar 30, 2017
Filed:
Sep 24, 2015
Appl. No.:
14/863742
Inventors:
- Santa Clara CA, US
Soji Sajuyigbe - Pittsburg CA, US
Bryce D. Horine - Portland OR, US
Tae Young Yang - Hillsboro OR, US
Kwan Ho Lee - Mountain View CA, US
Harry G. Skinner - Beaverton OR, US
Anand S. Konanur - Sunnyvale CA, US
International Classification:
F21V 8/00
Abstract:
A display having an integrated antenna with a substantially uniform transparency and/or light across the display. The display may have a uniformity layer that is an optical balance of the antenna, wherein the uniformity layer and the antenna have respective optical transparencies that provide a substantially uniform transparency across the display. The display may also have a backlight that has a surface brightness intensity corresponding to an optical inverse of the antenna, and is configured to provide a substantially uniform light across the display.

Body Presence Sensor Calibration

US Patent:
2016009, Mar 31, 2016
Filed:
Sep 27, 2014
Appl. No.:
14/499101
Inventors:
Kwan Ho Lee - Mountain View CA, US
Yasuharu Ohmi - Hillsboro OR, US
Ulun Karacaoglu - San Diego CA, US
Pronay Dutta - Beaverton OR, US
Simin Xiong - Hillsboro OR, US
International Classification:
H04W 52/28
H04W 4/02
Abstract:
Technologies for the calibration of a body presence sensor include a mobile computing device configured to calibrate the body presence sensor based on a present physical configuration mode of the mobile computing device. The mobile computing device may be adjustable into multiple physical configuration modes based on the intended use of the mobile computing device. The mobile computing device controls a transmit power level of an associated communication circuit based on whether the body presence sensor detects a body presence within proximity to the mobile computing device.

Systems And Methods For Communication Using A Body Area Network

US Patent:
2015018, Jun 25, 2015
Filed:
Dec 19, 2013
Appl. No.:
14/134766
Inventors:
Kwan Ho Lee - Mountain View CA, US
Erik S. Gamez Rodriguez - Salt Lake UT, US
Younguk Chang - Milpitas CA, US
Sean T. Dunford - David FL, US
Akihiro Takagi - San Mateo CA, US
Mindy Chang - Millbrae CA, US
Ulun Karacaoglu - San Diego CA, US
Anand S. Konanur - Sunnyvale CA, US
International Classification:
H04W 12/08
G06F 21/32
Abstract:
The present disclosure relates to computer-implemented systems and methods for establishing communication using a body area network. A system may receive, by a capacitive sensor, a touch interaction from a user. Furthermore, the system may determine, by the capacitive sensor based at least in part on the touch interaction, a change in capacitance. In addition, the system may transmit, via the user's body in response to the change in capacitance, a request to a user device for credential information. The system may also receive, from the user device via the user's body, the credential information.

Possible Relatives

Cynthia E Lee  David Lee  Cyril O Lee  Davida H Lee  Davina N Lee  Davis R Lee  Davon D Lee  Kwan S Johnson  Kwan S Jun  Kwan S Kim 

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