Patents by Inventor Yulia Mayzel

Yulia Mayzel 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: 20200352482
    Abstract: Examples disclosed herein provide a combination of measurement channels each having a pair of measuring sub-channels. Each sub-channel measures the glucose concentration by monitoring a physical variable dependent on the glucose concentration in the subject's tissue. The subchannels of each measurement channel are orthogonal towards a common disturbance acting on each subchannel of the apparatus. Ultrasonic, electromagnetic, and thermal channels may be implemented. The non-invasive glucose monitor comprises a processing unit, which drives these sub-channels' sensors. The sensors may be located on a sensor unit configured as an ear clip. The sensor unit may include ultrasonic piezo transducers positioned on opposing portions of the ear clip and thus configured to be on opposite sides of the ear lobe, capacitor plates positioned on opposing portions of the ear clip, and a heater and a sensor positioned on the ear clip in close juxtaposition to the ear lobe.
    Type: Application
    Filed: July 24, 2020
    Publication date: November 12, 2020
    Inventors: Avner Gal, Alexander M. Raykhman, Eugene Naidis, Yulia Mayzel, Alexander Klionsky, Anatoly Diber
  • Publication number: 20120271133
    Abstract: In order to increase the accuracy of non-invasive glucose measurement, the device uses a combination of three non-invasive methods: ultrasonic, electromagnetic and thermal. The non-invasive glucose monitor comprises a Main Unit, which drives three different sensor channels (one per technology), located on an external unit configured as an ear clip attached to the subject's ear lobe. To effect the ultrasonic channel, ultrasonic piezo elements are positioned on opposing portions of the ear clip and thus opposite sides of the ear lobe. For implementation of the electromagnetic channel, capacitor plates are positioned on opposing portions of the ear clip and the ear lobe serves as the dielectric. The thermal channel includes a heater and a sensor positioned on the ear clip in close juxtaposition to the ear lobe.
    Type: Application
    Filed: July 3, 2012
    Publication date: October 25, 2012
    Applicant: A.D. INTEGRITY APPLICATIONS LTD.
    Inventors: Avner Gal, Alexander M. Raykhman, Eugene Naidis, Yulia Mayzel, Alexander Klionsky, Anatoly Diber
  • Patent number: 8235897
    Abstract: In order to increase the accuracy of non-invasive glucose measurement, the device uses a combination of three non-invasive methods: ultrasonic, electromagnetic and thermal. The non-invasive glucose monitor comprises a Main Unit, which drives three different sensor channels (one per technology), located on an external unit configured as an ear clip attached to the subject's ear lobe. To effect the ultrasonic channel, ultrasonic piezo elements are positioned on opposing portions of the ear clip and thus opposite sides of the ear lobe. For implementation of the electromagnetic channel, capacitor plates are positioned on opposing portions of the ear clip and the ear lobe serves as the dielectric. The thermal channel includes a heater and a sensor positioned on the ear clip in close juxtaposition to the ear lobe.
    Type: Grant
    Filed: April 20, 2011
    Date of Patent: August 7, 2012
    Assignee: A.D. Integrity Applications Ltd.
    Inventors: Avner Gal, Alexander M. Raykhman, Eugene Naidis, Yulia Mayzel, Alexander Klionsky, Anatoly Diber
  • Publication number: 20110263956
    Abstract: In order to increase the accuracy of non-invasive glucose measurement, the device uses a combination of three non-invasive methods: ultrasonic, electromagnetic and thermal. The non-invasive glucose monitor comprises a Main Unit, which drives three different sensor channels (one per technology), located on an external unit configured as an ear clip attached to the subject's ear lobe. To effect the ultrasonic channel, ultrasonic piezo elements are positioned on opposing portions of the ear clip and thus opposite sides of the ear lobe. For implementation of the electromagnetic channel, capacitor plates are positioned on opposing portions of the ear clip and the ear lobe serves as the dielectric. The thermal channel includes a heater and a sensor positioned on the ear clip in close juxtaposition to the ear lobe.
    Type: Application
    Filed: April 20, 2011
    Publication date: October 27, 2011
    Inventors: AVNER GAL, Alexander M. Raykhman, Eugene Naidis, Yulia Mayzel, Alexander Klionsky, Anatoly Diber