Patents by Inventor Jason Mclntosh

Jason Mclntosh 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: 20240267687
    Abstract: Directed to a wearable device, that receives an acoustic signal from a microphone configured to measure an ambient environment; receives a sensor signal from a sensor; analyzing a sensor signal to detect a trigger event by comparing the sensor signal to a stored list that indicates which sensor signals indicate a trigger event; opening a communication channel with a remote server if a trigger event is detected; generating metadata including a time stamp; transmitting the metadata, the sensor signal and the acoustic signal to the server via the communication channel; and receiving, from the server an indication that the metadata, the sensor signal and acoustic signal has been received.
    Type: Application
    Filed: January 29, 2024
    Publication date: August 8, 2024
    Applicant: Staton Techiya LLC
    Inventors: Steven Wayne Goldstein, Marc Boillot, Jason Mclntosh, John P. Keady
  • Publication number: 20210250713
    Abstract: A mobile communication environment (100) can include a mobile device (160) to measure and send sound pressure level data. The mobile device (160) can initiate the collection of audio information responsive to detecting a trigger event. Mobile device (160) can measure or calculate the sound pressure level from the audio information. Metadata including time information and geographic location information can be captured with the collected audio information. Mobile device (160) can send the sound pressure level data and metadata through a wired or wireless communication path to a database (614).
    Type: Application
    Filed: April 29, 2021
    Publication date: August 12, 2021
    Applicant: Staton Techiya LLC
    Inventors: Steven Wayne Goldstein, Marc Boillot, Jason Mclntosh, John P. Keady
  • Publication number: 20200015025
    Abstract: A mobile communication environment (100) can include a mobile device (160) to measure and send sound pressure level data. The mobile device (160) can initiate the collection of audio information responsive to detecting a trigger event. Mobile device (160) can measure or calculate the sound pressure level from the audio information. Metadata including time information and geographic location information can be captured with the collected audio information. Mobile device (160) can send the sound pressure level data and metadata through a wired or wireless communication path to a database (614).
    Type: Application
    Filed: September 16, 2019
    Publication date: January 9, 2020
    Applicant: Staton Techiya, LLC
    Inventors: Steven Wayne Goldstein, Marc Boillot, Jason Mclntosh, John P. Keady
  • Publication number: 20130279703
    Abstract: A mobile communication environment (100) can include a mobile device (160) to measure and send sound pressure level data. The mobile device (160) can initiate the collection of audio information responsive to detecting a trigger event. Mobile device (160) can measure or calculate the sound pressure level from the audio information. Metadata including time information and geographic location information can be captured with the collected audio information. Mobile device (160) can send the sound pressure level data and metadata through a wired or wireless communication path to a database (614).
    Type: Application
    Filed: June 13, 2013
    Publication date: October 24, 2013
    Inventors: Steven Wayne Goldstein, Marc Boillot, Jason Mclntosh, John P. Keady
  • Publication number: 20110160583
    Abstract: A low-cost and compact electronic device toolset is provided for orthopedic assisted navigation. The toolset comprises wireless sensorized devices that communicate directly with one another. A computer workstation is an optional component for further visualization. The sensorized devices are constructed with low-cost transducers and are self-powered. The toolset is disposable and incurs less hospital maintenance and overhead. As one example, the toolset reports anatomical alignment during a surgical workflow procedure. Other embodiments are disclosed.
    Type: Application
    Filed: October 8, 2010
    Publication date: June 30, 2011
    Applicant: Orthosensor
    Inventors: Martin Roche, Marc Boillot, Jason Mclntosh
  • Publication number: 20090016542
    Abstract: An earpiece (100) and a method (640) for acoustic management of multiple microphones is provided. The method can include capturing an ambient acoustic signal from an Ambient Sound Microphone (ASM) to produce an electronic ambient signal, capturing in an ear canal an internal sound from an Ear Canal Microphone (ECM) to produce an electronic internal signal, measuring a background noise signal, and mixing the electronic ambient signal with the electronic internal signal in a ratio dependent on the background noise signal to produce a mixed signal. The mixing can adjust an internal gain of the electronic internal signal and an external gain of the electronic ambient signal based on the background noise characteristics. The mixing can account for an acoustic attenuation level and an audio content level of the earpiece. Other embodiments are provided.
    Type: Application
    Filed: June 9, 2008
    Publication date: January 15, 2009
    Applicant: Personics Holdings Inc.
    Inventors: Steve Wayne Goldstein, John Usher, Marc Andre Boillot, Jason Mclntosh
  • Publication number: 20090016541
    Abstract: An earpiece (100) and a method (640) for acoustic management of multiple microphones is provided. The method can include capturing an ambient acoustic signal from an Ambient Sound Microphone (ASM) to produce an electronic ambient signal, capturing in an ear canal an internal sound from an Ear Canal Microphone (ECM) to produce an electronic internal signal, measuring a background noise signal, and mixing the electronic ambient signal with the electronic internal signal in a ratio dependent on the background noise signal to produce a mixed signal. The mixing can adjust an internal gain of the electronic internal signal and an external gain of the electronic ambient signal based on the background noise characteristics. The mixing can account for an acoustic attenuation level and an audio content level of the earpiece. Other embodiments are provided.
    Type: Application
    Filed: May 5, 2008
    Publication date: January 15, 2009
    Applicant: Personics Holdings Inc.
    Inventors: Steven Wayne Goldstein, Marc Andre Boillot, Jason Mclntosh, John Usher
  • Publication number: 20070036342
    Abstract: The invention concerns a system (100) and method (400) for operation of a voice activity detector (230). The system can include a speaker (105), a first microphone (110) and a second microphone (120) in which the first microphone and the second microphone can capture acoustic output from the speaker. The system can also include an adaptive module (220) in which the first microphone and the second microphone can provide signals to the adaptive module, and the adaptive module can provide an input to the voice activity detector. The adaptive module can receive a first input (242) from the first microphone and a second input (243) from the second microphone and can attempt to determine (430) a transformation between the first and second inputs for setting a configuration of the voice activity detector.
    Type: Application
    Filed: August 5, 2005
    Publication date: February 15, 2007
    Inventors: Marc Boillot, Jason Mclntosh, Mikhail Yagunov