Hyun K Cho from Pleasanton, CA, age 45

Resumes

Hyun Cho Reseda, CA

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Work:

BellyBest Inc

Sep 2010 to 2000
Founder & Owner Electronic Arts
Los Angeles, CA
Oct 2005 to Apr 2010
Software Engineer II Activision - Infinity Ward
Encino, CA
Feb 2004 to Oct 2005
Software Engineer Kronos Digital Entertainment
Pasadena, CA
Aug 2002 to Sep 2003
Software Engineer I/O Software Inc
Riverside, CA
Aug 2000 to Aug 2002
Software Engineer Black Isle Studio Gameplay
Irvine, CA
Jun 1999 to Sep 1999
Intern

Education:

University of California
Berkeley, CA
2000
B.S. in Electrical Engineering & Computer Sciences

Hyun (Jason) Cho Hacienda Heights, CA

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Work:

Goodrich Corporation

Jul 2011 to 2000
Engineering Intern University of North Dakota
Grand Forks, ND
Jun 2010 to Aug 2010
Research Intern

Education:

California State Polytechnic University, Pomona
Pomona, CA
2006 to 2012
Bachelor of Science in Chemical Engineering

Skills:

Technical skills in AutoCAD, PRO/II, Unisim (HYSYS), PI Processbook, SAP, Microsoft Office (Word, Excel, Visio, Project, Powerpoint), CaWeb, MATLAB, LabVIEW

Us Patents

Mass Transport Limited In Vivo Analyte Sensor
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US Patent:

6654625, Nov 25, 2003
Filed:

Jun 16, 2000
Appl. No.:

09/595708
Inventors:

James L. Say - Alameda CA
Michael F. Tomasco - Danville CA
Jay D. Audett - Mountain View CA
Hyun Cho - Berkeley CA
Duane O. Yamasaki - El Cerrito CA
Adam Heller - Austin TX
Assignee:

TheraSense, Inc. - Alameda CA
International Classification:

A61B 505
US Classification:

600347, 600345, 600365
Abstract:

An in vivo electrochemical sensor including a working electrode, and an analyte-responsive sensing layer proximate the working electrode. The sensing layer is exposed at an edge of the sensor, wherein the sensor signal is limited, at least in part, by mass transport of analyte to the sensing layer. The sensor is configured and arranged for implantation into the body of a mammal for contact with body fluids of the mammal. The analyte diffuses to the sensing element via the edge of the sensor, thereby restricting mass transport of the analyte to the sensing element. This is because the solution-contacting surface area of the sensor edge is much smaller than an open face of the sensing layer.

Biosensor Membranes Composed Of Polymers Containing Heterocyclic Nitrogens
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US Patent:

6932894, Aug 23, 2005
Filed:

May 14, 2002
Appl. No.:

10/146518
Inventors:

Fei Mao - Fremont CA, US
Hyun Cho - Berkeley CA, US
Assignee:

TheraSense, Inc. - Alameda CA
International Classification:

G01N027/327
A61B005/05
B01D039/00
US Classification:

20440306, 20440305, 600347, 21050037
Abstract:

Novel membranes comprising various polymers containing heterocyclic nitrogen groups are described. These membranes are usefully employed in electrochemical sensors, such as amperometric biosensors. More particularly, these membranes effectively regulate a flux of analyte to a measurement electrode in an electrochemical sensor, thereby improving the functioning of the electrochemical sensor over a significant range of analyte concentrations. Electrochemical sensors equipped with such membranes are also described.

Mass Transport Limited In Vivo Analyte Sensor
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US Patent:

6975893, Dec 13, 2005
Filed:

Nov 25, 2003
Appl. No.:

10/723381
Inventors:

James L. Say - Alameda CA, US
Michael F. Tomasco - Danville CA, US
Jay D. Audett - Mountain View CA, US
Hyun Cho - Berkeley CA, US
Duane O. Yamasaki - El Cerrito CA, US
Adam Heller - Austin TX, US
Assignee:

TheraSense, Inc. - Alameda CA
International Classification:

A61B005/05
US Classification:

600347, 600345, 600365, 600373
Abstract:

An in vivo electrochemical sensor including a working electrode, and an analyte-responsive sensing layer proximate the working electrode. The sensing layer is exposed at an edge of the sensor, wherein the sensor signal is limited, at least in part, by mass transport of analyte to the sensing layer. The sensor is configured and arranged for implantation into the body of a mammal for contact with body fluids of the mammal. The analyte diffuses to the sensing element via the edge of the sensor, thereby restricting mass transport of the analyte to the sensing element. This is because the solution-contacting surface area of the sensor edge is much smaller than an open face of the sensing layer.

Biosensor Membranes Composed Of Polymers Containing Heterocyclic Nitrogens
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US Patent:

7670470, Mar 2, 2010
Filed:

Jul 1, 2005
Appl. No.:

11/174222
Inventors:

Fei Mao - Fremont CA, US
Hyun Cho - Berkeley CA, US
Assignee:

Abbott Diabetes Care Inc. - Alameda CA
International Classification:

G01N 27/327
B01D 71/06
G01N 27/31
US Classification:

204400, 20440305, 20440306, 204418, 204431, 21050027
Abstract:

Novel membranes comprising various polymers containing heterocyclic nitrogen groups are described. These membranes are usefully employed in electrochemical sensors, such as amperometric biosensors. More particularly, these membranes effectively regulate a flux of analyte to a measurement electrode in an electrochemical sensor, thereby improving the functioning of the electrochemical sensor over a significant range of analyte concentrations. Electrochemical sensors equipped wish such membranes are also described.

Biosensor Membranes Composed Of Polymers Containing Heterocyclic Nitrogens
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US Patent:

8147666, Apr 3, 2012
Filed:

Aug 20, 2009
Appl. No.:

12/544794
Inventors:

Fei Mao - Fremont CA, US
Hyun Cho - Berkeley CA, US
Assignee:

Abbott Diabetes Care Inc. - Alameda CA
International Classification:

G01N 27/327
B01D 3/00
US Classification:

20440305, 20440306, 427 213
Abstract:

Novel membranes comprising various polymers containing heterocyclic nitrogen groups are described. These membranes are usefully employed in electrochemical sensors, such as amperometric biosensors. More particularly, these membranes effectively regulate a flux of analyte to a measurement electrode in an electrochemical sensor, thereby improving the functioning of the electrochemical sensor over a significant range of analyte concentrations. Electrochemical sensors equipped with such membranes are also described.

Analyte Monitoring: Stabilizer For Subcutaneous Glucose Sensor With Incorporated Antiglycolytic Agent
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US Patent:

8160670, Apr 17, 2012
Filed:

Jul 3, 2008
Appl. No.:

12/167820
Inventors:

Tianmei Ouyang - Fremont CA, US
Zenghe Liu - Alameda CA, US
Hyun Cho - Berkeley CA, US
Benjamin J. Feldman - Oakland CA, US
Assignee:

Abbott Diabetes Care Inc. - Alameda CA
International Classification:

G01N 27/26
C12Q 1/00
A61B 5/05
US Classification:

600347, 600345, 600365, 20440301, 20440314
Abstract:

An analyte sensor including an antiglycolytic agent or a precursor thereof and a chelating agent that stabilizes the antiglycolytic agent positioned proximate to the working electrode of the sensor. Also provided are systems and methods of using the electrochemical analyte sensors in analyte monitoring.

Oxygen-Effect Free Analyte Sensor
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US Patent:

8268143, Sep 18, 2012
Filed:

Jul 14, 2008
Appl. No.:

12/172589
Inventors:

Zenghe Liu - Alameda CA, US
Tianmei Ouyang - Fremont CA, US
Hyun Cho - Berkeley CA, US
Yohannes Goti - Oakland CA, US
Benjamin J. Feldman - Oakland CA, US
Fei Mao - Fremont CA, US
Adam Heller - Austin TX, US
Assignee:

Abbott Diabetes Care Inc. - Alameda CA
International Classification:

C12Q 1/32
US Classification:

20440301, 20440302, 20440303, 20440304, 20440305, 20440306, 20440307, 20440308, 20440309, 20440312, 20440311
Abstract:

The present invention provides an electrochemical sensor having a sensing chemistry that operates substantially free of any “oxygen effect”. The electrochemical sensors are useful in determining the level of an analyte in a biological sample from a subject. The present invention also provides sensor assemblies including the electrochemical sensors as well as methods of using the same.

Biosensor Membranes Composed Of Polymers Containing Heterocyclic Nitrogens
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US Patent:

8377271, Feb 19, 2013
Filed:

Sep 29, 2010
Appl. No.:

12/893756
Inventors:

Fei Mao - Fremont CA, US
Hyun Cho - Berkeley CA, US
Assignee:

Abbott Diabetes Care Inc. - Alameda CA
International Classification:

G01N 27/327
US Classification:

20440305, 600345, 20440314
Abstract:

Novel membranes comprising various polymers containing heterocyclic nitrogen groups are described. These membranes are usefully employed in electrochemical sensors, such as amperometric biosensors. More particularly, these membranes effectively regulate a flux of analyte to a measurement electrode in an electrochemical sensor, thereby improving the functioning of the electrochemical sensor over a significant range of analyte concentrations. Electrochemical sensors equipped with such membranes are also described.