Patents by Inventor Fuxi Lu

Fuxi Lu 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).

  • Patent number: 12648726
    Abstract: A computer system receives a plurality of signals corresponding to first time-series magnetic data generated from a plurality of unshielded magnetometers proximate to the human subject. The first time-series magnetic data corresponds to magnetic fields generated from the human subject. The plurality of signals includes contributions from a biomagnetic field from at least a portion of the subject's organ and a background magnetic field. The computer system synchronizes the first time-series magnetic data to a common clock to generate synchronized time-series magnetic data. The computer system applies one or more filters to the synchronized time-series magnetic data to obtain filtered data. The computer system applies one or more noise reduction techniques to the filtered data to generate updated time-series magnetic data.
    Type: Grant
    Filed: September 11, 2024
    Date of Patent: June 9, 2026
    Assignee: SB Technology, Inc.
    Inventors: Geoffrey Zerbinatti Iwata, Christian Thieu Nguyen, Kevin Robert Tharratt, Maximilian Thomas Ruf, Tucker Blake Reinhardt, Jordan Edward Crivelli-Decker, Madelaine Susan Zoritza Liddy, Alison Emiko Rugar, Fuxi Lu, Ethan Jesse Pratt, Kit Yee Au-Yeung, Stefan Bogdanovic
  • Publication number: 20250261890
    Abstract: A system for measuring magnetic fields from a subject's organ comprises a plurality of unshielded magnetometers in a three-dimensional arrangement and an electromagnetic source. The system is configured to simultaneously collect, via each magnetometer of the plurality of magnetometers, (i) a biomagnetic field from at least a portion of the subject's organ, (ii) an electromagnetic signal from the electromagnetic source, and (iii) a background magnetic field. The system is configured to synchronize a plurality of magnetic signals collected by the plurality of magnetometers according to the electromagnetic signal from the electromagnetic source. The system is configured to output a signal indicative of the collected biomagnetic field and the background magnetic field in accordance with the synchronizing. The system is configured to operate without magnetic shielding.
    Type: Application
    Filed: April 25, 2025
    Publication date: August 21, 2025
    Inventors: Geoffrey Zerbinatti Iwata, Christian Thieu Nguyen, Kevin Robert Tharratt, Maximilian Thomas Ruf, Tucker Blake Reinhardt, Jordan Edward Crivelli-Decker, Madelaine Susan Zoritza Liddy, Alison Emiko Rugar, Fuxi Lu, Ethan Jesse Pratt, Kit Yee Au-Yeung, Stefan Bogdanovic
  • Patent number: 12310734
    Abstract: An apparatus for measuring magnetic fields from a subject's organ comprises a plurality of unshielded magnetometers in a three-dimensional arrangement. A respective pair of magnetometers, in the plurality of magnetometers, has a respective known separation. Each magnetometer in the plurality of magnetometers is configured to simultaneously detect a biomagnetic field from at least a portion of the subject's organ and a background magnetic field and output a signal indicative of the detected biomagnetic field and the background magnetic field.
    Type: Grant
    Filed: March 15, 2024
    Date of Patent: May 27, 2025
    Assignee: SB Technology, Inc.
    Inventors: Geoffrey Zerbinatti Iwata, Christian Thieu Nguyen, Kevin Robert Tharratt, Maximilian Thomas Ruf, Tucker Blake Reinhardt, Jordan Edward Crivelli-Decker, Madelaine Susan Zoritza Liddy, Alison Emiko Rugar, Fuxi Lu, Ethan Jesse Pratt, Kit Yee Au-Yeung, Stefan Bogdanovic
  • Publication number: 20250000416
    Abstract: A computer system receives a plurality of signals corresponding to first time-series magnetic data generated from a plurality of unshielded magnetometers proximate to the human subject. The first time-series magnetic data corresponds to magnetic fields generated from the human subject. The plurality of signals includes contributions from a biomagnetic field from at least a portion of the subject's organ and a background magnetic field. The computer system synchronizes the first time-series magnetic data to a common clock to generate synchronized time-series magnetic data. The computer system applies one or more filters to the synchronized time-series magnetic data to obtain filtered data. The computer system applies one or more noise reduction techniques to the filtered data to generate updated time-series magnetic data.
    Type: Application
    Filed: September 11, 2024
    Publication date: January 2, 2025
    Inventors: Geoffrey Zerbinatti Iwata, Christian Thieu Nguyen, Kevin Robert Tharratt, Maximilian Thomas Ruf, Tucker Blake Reinhardt, Jordan Edward Crivelli-Decker, Madelaine Susan Zoritza Liddy, Alison Emiko Rugar, Fuxi Lu, Ethan Jesse Pratt, Kit Yee Au-Yeung, Stefan Bogdanovic
  • Publication number: 20240306969
    Abstract: An apparatus for measuring magnetic fields from a subject's organ comprises a plurality of unshielded magnetometers in a three-dimensional arrangement. A respective pair of magnetometers, in the plurality of magnetometers, has a respective known separation. Each magnetometer in the plurality of magnetometers is configured to simultaneously detect a biomagnetic field from at least a portion of the subject's organ and a background magnetic field and output a signal indicative of the detected biomagnetic field and the background magnetic field.
    Type: Application
    Filed: March 15, 2024
    Publication date: September 19, 2024
    Inventors: Geoffrey Zerbinatti Iwata, Christian Thieu Nguyen, Kevin Robert Tharratt, Maximilian Thomas Ruf, Tucker Blake Reinhardt, Jordan Edward Crivelli-Decker, Madelaine Susan Zoritza Liddy, Alison Emiko Rugar, Fuxi Lu, Ethan Jesse Pratt, Kit Yee Au-Yeung, Stefan Bogdanovic
  • Publication number: 20240306927
    Abstract: A computer system receives a plurality of signals corresponding to first time-series magnetic data generated from a plurality of unshielded magnetometers proximate to the human subject. The first time-series magnetic data corresponds to magnetic fields generated from the human subject. The plurality of signals includes contributions from a biomagnetic field from at least a portion of the subject's organ and a background magnetic field. The computer system synchronizes the first time-series magnetic data to a common clock to generate synchronized time-series magnetic data. The computer system applies one or more filters to the synchronized time-series magnetic data to obtain filtered data. The computer system applies one or more noise reduction techniques to the filtered data to generate updated time-series magnetic data.
    Type: Application
    Filed: March 15, 2024
    Publication date: September 19, 2024
    Inventors: Geoffrey Zerbinatti Iwata, Christian Thieu Nguyen, Kevin Robert Tharratt, Maximilian Thomas Ruf, Tucker Blake Reinhardt, Jordan Edward Crivelli-Decker, Madelaine Susan Zoritza Liddy, Alison Emiko Rugar, Fuxi Lu, Ethan Jesse Pratt, Kit Yee Au-Yeung, Stefan Bogdanovic