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Minglian L Shi

from San Diego, CA
Age ~62
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Also known as:
Minglian The Shi Shi, Minglian Shi Shi, Minglian T Shi, Ming Lian Shi, Mingilian Shi, Shi Shi Minglian, L Shi, I Shi
Phone and address:
7474 Sean Taylor Ln, San Diego, CA 92126
Related to:
Yunfeng Zhang, 53Jianhua Chen, 60Jian Q Chen, 67Shiming Zhuang, 62Bud ShiWilliam D Shi, 36Yuxiao C Zhuang, 33Ling M Li, 62
Connected to:
Alex Y Shi, 32Alice H Shi, 35Annie Shi, 52Ben Shi, 34Cathy Y Shi, 29Chenjun Shi, 49Chunmeng Shi, 50Claire X Shi, 46Connie R Shi, 32Daniel F Shi, 63

Minglian Shi Phones & Addresses

  • 7474 Sean Taylor Ln, San Diego, CA 92126
  • 52 Marblehead, Irvine, CA 92620
  • 22 Atlanta, Irvine, CA 92620 (714) 669-5617
  • Pasadena, CA
  • Orange, CA

Work

Company: Dexcom Aug 2014 to Mar 2019 Position: Principal scientist

Education

Degree: Doctorates, Doctor of Philosophy School / High School: Peking University 1988

Skills

Medical Devices • Sensors • Instrumentation • Electrochemistry

Industries

Medical Devices

Resumes

Resumes

Minglian Shi Photo 1

Minglian Shi

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Location:
7474 Sean Taylor Ln, San Diego, CA 92126
Industry:
Medical Devices
Work:
Dexcom Aug 2014 - Mar 2019
Principal Scientist
Alere, Inc. Feb 2010 - 2014
Senior Scientist
Biovention 2008 - 2011
Principal Engineer
Advanced Micro Instruments 2004 - 2008
Senior Scientist
Teledyne Analytical Instruments 1997 - 2000
Senior Scientist
Education:
Peking University 1988
Doctorates, Doctor of Philosophy
Skills:
Medical Devices
Sensors
Instrumentation
Electrochemistry

Business Records

Name / Title
Company / Classification
Phones & Addresses
Minglian Shi
Manager
General Monitors
Electrical/Electronic Manufacturing · Mfg Communications Equipment Trade Contractor Mfg Search/Navigation Equipment · Mfg Gas Monitoring & Flame Detection Instruments · Gas Detectors · Instruments and Related Products Manufacturing for Measuring
26776 Simpatica Cir, Lake Forest, CA 92630
1000 Cranberry Wood Dr, Cranberry Township, PA 16066
(949) 581-4464, (949) 581-1151
Minglian Shi
Managing
Accusense Instruments LLC
Instruments Consulting
52 Marblehead, Irvine, CA 92620
22 Atlanta, Irvine, CA 92620

Publications

Us Patents

Electrochemical Gas Sensor

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US Patent:
61769894, Jan 23, 2001
Filed:
Dec 28, 1998
Appl. No.:
9/221474
Inventors:
Minglian Shi - Irvine CA
Assignee:
Teledyne Technologies Incorp. - Los Angeles CA
International Classification:
G01N 27404
US Classification:
204412
Abstract:
An electrochemical gas sensor including a sensor body having a cavity, an electrolyte in the cavity, an auxiliary electrode in contact with the electrolyte, a sensing electrode in contact with the electrolyte, and a blocking electrode in contact with the electrolyte. At least a portion of the blocking electrode is positioned intermediate the auxiliary electrode and the sensing electrode, and the blocking electrode reduces electroactive materials within the electrolyte. Also disclosed is a method for sensing a partial pressure of a target gas in a sample gas, the method including introducing the sample gas into a gas sensor, applying different potentials to the auxiliary electrode, sensing electrode and blocking electrode, reducing electroactive materials present in the electrolyte to prevent the electroactive materials from contacting the sensing electrode, and outputting an electrical signal from the gas sensor representative of the target gas partial pressure.

Systems, Devices, And Methods To Compensate For Temperature Effects On Sensors

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US Patent:
20230108235, Apr 6, 2023
Filed:
Oct 6, 2022
Appl. No.:
17/938643
Inventors:
- San Diego CA, US
Sebastian Bohm - Cardiff CA, US
Rui Ma - Santa Clara CA, US
Disha Sheth - Oceanside CA, US
Minglian Shi - Irvine CA, US
Kamuran Turksoy - Clarksburg MD, US
International Classification:
A61B 5/1495
A61B 5/0205
A61B 5/145
A61B 5/1486
A61B 5/00
A61B 5/01
G16H 50/20
G01N 27/327
Abstract:
This document discusses, among other things, systems and methods to compensate for the effects of temperature on sensors, such as analyte sensor. An example method may include determining a temperature-compensated glucose concentration level by receiving a temperature signal indicative of a temperature parameter of an external component, receiving a glucose signal indicative of an in vivo glucose concentration level, and determining a compensated glucose concentration level based on the glucose signal, the temperature signal, and a delay parameter.

Transcutaneous Analyte Sensor Systems And Methods

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US Patent:
20210361200, Nov 25, 2021
Filed:
Jun 8, 2021
Appl. No.:
17/342071
Inventors:
- San Diego CA, US
Minglian Shi - San Diego CA, US
Sebastian Bohm - San Diego CA, US
Maria Noel Brown Wells - San Diego CA, US
John Patrick Majewski - Solana Beach CA, US
Leah Morta Edra - San Diego CA, US
Disha B. Sheth - Oceanside CA, US
John Michael Gray - San Diego CA, US
Shanger Wang - San Diego CA, US
Ted Tang Lee - San Diego CA, US
Michael L. Moore - Poway CA, US
Jason Mitchell - San Diego CA, US
Jennifer Blackwell - San Diego CA, US
Neel Narayan Shah - Carlsbad CA, US
Todd Andrew Newhouse - San Diego CA, US
Jason Halac - San Diego CA, US
Ryan Everett Schoonmaker - Oceanside CA, US
Paul V. Neale - San Diego CA, US
Jiong Zou - San Diego CA, US
Sean T. Saint - San Diego CA, US
International Classification:
A61B 5/145
A61B 5/00
Abstract:
Sensor systems can be used to measure an analyte concentration. Sensor systems can include a base having a distal side configured to face towards a person's skin. An adhesive can couple the base to the skin. A transcutaneous analyte measurement sensor can be coupled to the base and can be located at least partially in the host. A transmitter can be coupled to the base and can transmit analyte measurement data to a remote device.

Analyte Sensor With Impedance Determination

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US Patent:
20200205694, Jul 2, 2020
Filed:
Dec 27, 2019
Appl. No.:
16/728652
Inventors:
- San Diego CA, US
Daiting Rong - San Diego CA, US
Rui Ma - San Diego CA, US
Wenjie Lan - San Diego CA, US
Minglian Shi - San Diego CA, US
Disha B. Sheth - Oceanside CA, US
International Classification:
A61B 5/053
G01N 33/487
Abstract:
Various examples are directed to systems and methods for operating an analyte sensor system using sensor electronics. An example method may comprise applying a bias voltage change to an analyte sensor bias voltage and measuring a current value for each of a plurality of time periods after application of the bias voltage change. The example method may also comprise determining an estimated impedance using the current values for the plurality of time periods and determining a characteristic of the analyte sensor using the estimated impedance. The example method may further comprise receiving from the analyte sensor a signal indicative of an analyte concentration, and determining an estimated analyte concentration level using the determined characteristic of the analyte sensor and the received signal.

Analyte Sensor With Impedance Determination

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US Patent:
20200205701, Jul 2, 2020
Filed:
Dec 27, 2019
Appl. No.:
16/728676
Inventors:
- San Diego CA, US
Daiting Rong - San Diego CA, US
Rui Ma - San Diego CA, US
Wenjie Lan - San Diego CA, US
Minglian Shi - San Diego CA, US
Disha B. Sheth - Oceanside CA, US
Nicholas Kalfas - San Diego CA, US
International Classification:
A61B 5/1495
A61B 5/145
A61B 5/1486
Abstract:
Various examples described herein are directed to systems and methods for determining an analyte concentration using an analyte sensor. A method may comprise disconnecting an analyte sensor from a measurement circuit and reconnecting the analyte sensor to the measurement circuit after an accumulation period. The method may comprise receiving a signal from the analyte sensor. The signal may be indicative of an amount of charge accumulated on the analyte sensor during the accumulation period. The method may also comprise determining an estimated analyte concentration level based on the received signal.

Analyte Sensor With Impedance Determination

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US Patent:
20200205702, Jul 2, 2020
Filed:
Dec 27, 2019
Appl. No.:
16/728765
Inventors:
- San Diego CA, US
Daiting Rong - San Diego CA, US
Rui Ma - San Diego CA, US
Wenjie Lan - San Diego CA, US
Minglian Shi - San Diego CA, US
Disha B. Sheth - Oceanside CA, US
Nicholas Kalfas - San Diego CA, US
Vincent P. Crabtree - San Diego CA, US
Kamuran Turksoy - Clarksburg MD, US
International Classification:
A61B 5/1495
A61B 5/1486
Abstract:
Various examples are directed to systems and methods of and using analyte sensors. An example analyte sensor system comprises an analyte sensor and a hardware device in communication with the analyte sensor. The hardware device may be configured to perform operations comprising applying a first bias voltage to the analyte sensor, the first bias voltage less than an operational bias voltage of the analyte sensor, measuring a first current at the analyte sensor when the first bias voltage is applied, and applying a second bias voltage to the analyte sensor. The operations may further comprise measuring a second current at the analyte sensor when the second bias voltage is applied, detecting a plateau bias voltage using the first current and the second current, determining that the plateau bias voltage is less than a plateau bias voltage threshold, and executing a responsive action at the analyte sensor.

Analyte Sensor With Impedance Determination

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US Patent:
20200209179, Jul 2, 2020
Filed:
Dec 27, 2019
Appl. No.:
16/729021
Inventors:
- San Diego CA, US
Daiting Rong - San Diego CA, US
Rui Ma - San Diego CA, US
Wenjie Lan - San Diego CA, US
Minglian Shi - San Diego CA, US
Disha B. Sheth - Oceanside CA, US
Vincent P. Crabtree - San Diego CA, US
Kamuran Turksoy - Clarksburg MD, US
International Classification:
G01N 27/24
A61B 5/145
A61B 5/00
G01N 27/22
Abstract:
Various examples described herein are directed to systems and methods of detecting damage to an analyte sensor using analyte sensor impedance values. In some examples, a method of assessing sensor membrane integrity using sensor electronics comprises determining an impedance parameter of an analyte sensor and determining a membrane integrity state of the analyte sensor based on the impedance parameter.

Systems, Devices, And Methods To Compensate For Temperature Effects On Sensors

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US Patent:
20190223765, Jul 25, 2019
Filed:
Jan 22, 2019
Appl. No.:
16/254210
Inventors:
- San Diego CA, US
Sebastian Böhm - San Diego CA, US
Rui Ma - San Diego CA, US
Disha B. Sheth - Oceanside CA, US
Minglian Shi - San Diego CA, US
Kamuran Turksoy - San Diego CA, US
International Classification:
A61B 5/1495
A61B 5/01
A61B 5/0205
A61B 5/145
A61B 5/1486
A61B 5/00
Abstract:
This document discusses, among other things, systems and methods to compensate for the effects of temperature on sensors, such as analyte sensor. An example method may include determining a temperature-compensated glucose concentration level by receiving a temperature signal indicative of a temperature parameter of an external component, receiving a glucose signal indicative of an in vivo glucose concentration level, and determining a compensated glucose concentration level based on the glucose signal, the temperature signal, and a delay parameter.
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Minglian L Shi from San Diego, CA, age ~62 Get Report