Patents by Inventor Minglian Shi

Minglian Shi has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).

  • Publication number: 20190223766
    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.
    Type: Application
    Filed: January 22, 2019
    Publication date: July 25, 2019
    Inventors: Anna Claire Harley-Trochimczyk, Sebastian Böhm, Rui Ma, Disha B. Sheth, Minglian Shi, Kamuran Turksoy
  • Publication number: 20190223765
    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.
    Type: Application
    Filed: January 22, 2019
    Publication date: July 25, 2019
    Inventors: Anna Claire Harley-Trochimczyk, Sebastian Böhm, Rui Ma, Disha B. Sheth, Minglian Shi, Kamuran Turksoy
  • Publication number: 20190227022
    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.
    Type: Application
    Filed: January 22, 2019
    Publication date: July 25, 2019
    Inventors: Anna Claire Harley-Trochimczyk, Sebastian Böhm, Rui Ma, Disha B. Sheth, Minglian Shi, Kamuran Turksoy
  • Publication number: 20180116570
    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.
    Type: Application
    Filed: October 30, 2017
    Publication date: May 3, 2018
    Inventors: Peter C. Simpson, Minglian Shi, Sebastian Bohm, Maria Noel Brown Wells, John Patrick Majewski, Leah Ebuen Morta, Disha B. Sheth, John Michael Gray, Shanger Wang, Ted Tang Lee, Michael L. Moore, Jason Mitchell, Jennifer Blackwell, Neel Narayan Shah, Todd Andrew Newhouse, Jason Halac, Ryan Everett Schoonmaker, Paul V. Neale, Jiong Zou, Sean T. Saint
  • Publication number: 20180116572
    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.
    Type: Application
    Filed: October 30, 2017
    Publication date: May 3, 2018
    Inventors: Peter C. Simpson, Minglian Shi, Sebastian Bohm, John Patrick Majewski, Maria Noel Brown Wells, Leah Ebuen Morta, Disha B. Sheth, John Michael Gray, Shanger Wang, Ted Tang Lee, Michael L. Moore, Jason Mitchell, Jennifer Blackwell, Neel Narayan Shah, Todd Andrew Newhouse, Jason Halac, Ryan Everett Schoonmaker, Paul V. Neale, Jiong Zou, Sean T. Saint
  • Patent number: 6176989
    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.
    Type: Grant
    Filed: December 28, 1998
    Date of Patent: January 23, 2001
    Assignee: Teledyne Technologies Incorp.
    Inventor: Minglian Shi