Patents by Inventor Jonathan Fay
Jonathan Fay 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: 11516602Abstract: Embodiments of the present invent include a method of controlling unwanted vibration in a tympanic lens, wherein the tympanic lens comprises a perimeter platform connected to a microactuator through at least one biasing element, the method comprising the step of: damping the motion of the at least one biasing element. In embodiments of the invention, the at least one biasing element is a spring. In embodiments of the invention, the at least one bias spring is coated in a damping material.Type: GrantFiled: June 17, 2021Date of Patent: November 29, 2022Assignee: Earlens CorporationInventors: Paul Rucker, Sunil Puria, Stuart Wenzel, Jake L. Olsen, Cem Shaquer, Morteza Khaleghimeybodi, Jonathan Fay, Micha Rosen
-
Publication number: 20220007118Abstract: Embodiments of the present invent include a method of controlling unwanted vibration in a tympanic lens, wherein the tympanic lens comprises a perimeter platform connected to a microactuator through at least one biasing element, the method comprising the step of: damping the motion of the at least one biasing element. In embodiments of the invention, the at least one biasing element is a spring. In embodiments of the invention, the at least one bias spring is coated in a damping material.Type: ApplicationFiled: June 17, 2021Publication date: January 6, 2022Inventors: Paul Rucker, Sunil Puria, Stuart Wenzel, Jake L. Olsen, Cem Shaquer, Morteza Khaleghimeybodi, Jonathan Fay, Micha Rosen
-
Publication number: 20210306777Abstract: A device to transmit an audio signal to a user may comprise a mass, a piezoelectric transducer, and a support to support the mass and the piezoelectric transducer with the eardrum. The piezoelectric transducer can be configured to drive the support and the eardrum with a first force and the mass with a second force opposite the first force. The device may comprise circuitry configured to receive wireless power and wireless transmission of an audio signal, and the circuitry can be supported with the eardrum to drive the transducer in response to the audio signal, such that vibration between the circuitry and the transducer can be decreased. The transducer can be positioned away from the umbo of the ear to drive the eardrum, for example on the lateral process of the malleus.Type: ApplicationFiled: April 15, 2021Publication date: September 30, 2021Inventors: Paul Rucker, Sunil Puria, Jonathan Fay, Micha Rosen
-
Patent number: 11070927Abstract: Embodiments of the present invent include a method of controlling unwanted vibration in a tympanic lens, wherein the tympanic lens comprises a perimeter platform connected to a microactuator through at least one biasing element, the method comprising the step of: damping the motion of the at least one biasing element. In embodiments of the invention, the at least one biasing element is a spring. In embodiments of the invention, the at least one bias spring is coated in a damping material.Type: GrantFiled: August 12, 2020Date of Patent: July 20, 2021Assignee: Earlens CorporationInventors: Paul Rucker, Sunil Puria, Stuart Wenzel, Jake L. Olsen, Cem Shaquer, Morteza Khaleghimeybodi, Jonathan Fay, Micha Rosen
-
Publication number: 20200374639Abstract: Embodiments of the present invent include a method of controlling unwanted vibration in a tympanic lens, wherein the tympanic lens comprises a perimeter platform connected to a microactuator through at least one biasing element, the method comprising the step of: damping the motion of the at least one biasing element. In embodiments of the invention, the at least one biasing element is a spring. In embodiments of the invention, the at least one bias spring is coated in a damping material.Type: ApplicationFiled: August 12, 2020Publication date: November 26, 2020Inventors: Paul Rucker, Sunil Puria, Stuart Wenzel, Jake L. Olsen, Cem Shaquer, Morteza Khaleghimeybodi, Jonathan Fay, Micha Rosen
-
Patent number: 10779094Abstract: Embodiments of the present invent include a method of controlling unwanted vibration in a tympanic lens, wherein the tympanic lens comprises a perimeter platform connected to a microactuator through at least one biasing element, the method comprising the step of: damping the motion of the at least one biasing element. In embodiments of the invention, the at least one biasing element is a spring. In embodiments of the invention, the at least one bias spring is coated in a damping material.Type: GrantFiled: September 12, 2019Date of Patent: September 15, 2020Assignee: Earlens CorporationInventors: Paul Rucker, Sunil Puria, Stuart Wenzel, Jake L. Olsen, Cem Shaquer, Morteza Khaleghimeybodi, Jonathan Fay, Micha Rosen
-
Publication number: 20200007998Abstract: Embodiments of the present invent include a method of controlling unwanted vibration in a tympanic lens, wherein the tympanic lens comprises a perimeter platform connected to a microactuator through at least one biasing element, the method comprising the step of: damping the motion of the at least one biasing element. In embodiments of the invention, the at least one biasing element is a spring. In embodiments of the invention, the at least one bias spring is coated in a damping material.Type: ApplicationFiled: September 12, 2019Publication date: January 2, 2020Inventors: Paul Rucker, Sunil Puria, Stuart Wenzel, Jake L. Olsen, Cem Shaquer, Morteza Khaleghimeybodi, Jonathan Fay, Micha Rosen
-
Patent number: 10492010Abstract: Embodiments of the present invent include a method of controlling unwanted vibration in a tympanic lens, wherein the tympanic lens comprises a perimeter platform connected to a microactuator through at least one biasing element, the method comprising the step of: damping the motion of the at least one biasing element. In embodiments of the invention, the at least one biasing element is a spring. In embodiments of the invention, the at least one bias spring is coated in a damping material.Type: GrantFiled: December 20, 2016Date of Patent: November 26, 2019Assignee: Earlens CorporationsInventors: Paul Rucker, Sunil Puria, Stuart Wenzel, Jake L. Olsen, Cem Shaquer, Morteza Khaleghimeybodi, Jonathan Fay, Micha Rosen
-
Publication number: 20180243523Abstract: The flow rate of a gaseous sample of exhaled breath through an analytical device is controlled by a pump, and in certain embodiments two pumps. Placement of the analyte sensor in a secondary stream branching off of the primary stream through the device offers further control over the manner, duration, and quantity of the breath that is placed in contact with the sensor.Type: ApplicationFiled: February 20, 2018Publication date: August 30, 2018Inventors: Kevin NASON, Jonathan FAY, Bryan P. FLAHERTY, Bhairavi R. PARIKH
-
Publication number: 20180213331Abstract: A device to transmit an audio signal to a user may comprise a mass, a piezoelectric transducer, and a support to support the mass and the piezoelectric transducer with the eardrum. The piezoelectric transducer can be configured to drive the support and the eardrum with a first force and the mass with a second force opposite the first force. The device may comprise circuitry configured to receive wireless power and wireless transmission of an audio signal, and the circuitry can be supported with the eardrum to drive the transducer in response to the audio signal, such that vibration between the circuitry and the transducer can be decreased. The transducer can be positioned away from the umbo of the ear to drive the eardrum, for example on the lateral process of the malleus.Type: ApplicationFiled: March 5, 2018Publication date: July 26, 2018Inventors: Paul Rucker, Sunil Puria, Jonathan Fay, Micha Rosen
-
Patent number: 10019834Abstract: Methods, devices, and computer-readable media that allow real-time rendering while navigating virtually about or through a digital 3-D volumetric model. Examples provide techniques to facilitate real-time rendering while navigating through and around the 3-D volumetric model that can have many thousands of particles, where the particles can have emissive, occlusive, and translucent properties. Such complex particles of the 3-D volumetric model are presorted along predefined viewing directions in order to enable real-time rendering from when a navigation control has been entered. Presorting of data may be performed at a processing device(s) located across a public or private network from a user's device on which the real-time rendering is performed.Type: GrantFiled: September 26, 2014Date of Patent: July 10, 2018Assignee: Microsoft Technology Licensing, LLCInventors: Jonathan Fay, Mark Finch, Stephen Coy
-
Patent number: 9949035Abstract: A device to transmit an audio signal to a user may comprise a mass, a piezoelectric transducer, and a support to support the mass and the piezoelectric transducer with the eardrum. The piezoelectric transducer can be configured to drive the support and the eardrum with a first force and the mass with a second force opposite the first force. The device may comprise circuitry configured to receive wireless power and wireless transmission of an audio signal, and the circuitry can be supported with the eardrum to drive the transducer in response to the audio signal, such that vibration between the circuitry and the transducer can be decreased. The transducer can be positioned away from the umbo of the ear to drive the eardrum, for example on the lateral process of the malleus.Type: GrantFiled: February 12, 2016Date of Patent: April 17, 2018Assignee: Earlens CorporationInventors: Paul Rucker, Sunil Puria, Jonathan Fay, Micha Rosen
-
Patent number: 9919123Abstract: The flow rate of a gaseous sample of exhaled breath through an analytical device is controlled by a pump, and in certain embodiments two pumps. Placement of the analyte sensor in a secondary stream branching off of the primary stream through the device offers further control over the manner, duration, and quantity of the breath that is placed in contact with the sensor.Type: GrantFiled: January 9, 2015Date of Patent: March 20, 2018Assignee: Circassia ABInventors: Kevin Nason, Jonathan Fay, Bryan P. Flaherty, Bhairavi R. Parikh
-
Publication number: 20170195801Abstract: Embodiments of the present invent include a method of controlling unwanted vibration in a tympanic lens, wherein the tympanic lens comprises a perimeter platform connected to a microactuator through at least one biasing element, the method comprising the step of: damping the motion of the at least one biasing element. In embodiments of the invention, the at least one biasing element is a spring. In embodiments of the invention, the at least one bias spring is coated in a damping material.Type: ApplicationFiled: December 20, 2016Publication date: July 6, 2017Inventors: Paul Rucker, Sunil Puria, Stuart Wenzel, Jake L. Olsen, Cem Shaquer, Morteza Khaleghimeybodi, Jonathan Fay, Micha Rosen
-
Publication number: 20160183017Abstract: A device to transmit an audio signal to a user may comprise a mass, a piezoelectric transducer, and a support to support the mass and the piezoelectric transducer with the eardrum. The piezoelectric transducer can be configured to drive the support and the eardrum with a first force and the mass with a second force opposite the first force. The device may comprise circuitry configured to receive wireless power and wireless transmission of an audio signal, and the circuitry can be supported with the eardrum to drive the transducer in response to the audio signal, such that vibration between the circuitry and the transducer can be decreased. The transducer can be positioned away from the umbo of the ear to drive the eardrum, for example on the lateral process of the malleus.Type: ApplicationFiled: February 12, 2016Publication date: June 23, 2016Inventors: Paul Rucker, Sunil Puria, Jonathan Fay, Micha Rosen
-
Publication number: 20160093092Abstract: Methods, devices, and computer-readable media that allow real-time rendering while navigating virtually about or through a digital 3-D volumetric model. Examples provide techniques to facilitate real-time rendering while navigating through and around the 3-D volumetric model that can have many thousands of particles, where the particles can have emissive, occlusive, and translucent properties. Such complex particles of the 3-D volumetric model are presorted along predefined viewing directions in order to enable real-time rendering from when a navigation control has been entered. Presorting of data may be performed at a processing device(s) located across a public or private network from a user's device on which the real-time rendering is performed.Type: ApplicationFiled: September 26, 2014Publication date: March 31, 2016Inventors: Jonathan Fay, Mark Finch, Stephen Coy
-
Publication number: 20150288857Abstract: Described herein are various technologies pertaining to positioning and/or orienting a mobile computing device through utilization of a mount. The mobile computing device uses internal sensors to generate control signals, wherein a control signal indicates a direction of movement of the mobile computing device and a velocity of the movement. The control signals are transmitted to the mount, which positions and/or orients the mobile computing device according to the direction of the movement and the velocity of the movement indicated in the control signal.Type: ApplicationFiled: April 7, 2014Publication date: October 8, 2015Applicant: Microsoft CorporationInventors: Jonathan Fay, Daniel Fay
-
Publication number: 20150126887Abstract: The flow rate of a gaseous sample of exhaled breath through an analytical device is controlled by a pump, and in certain embodiments two pumps. Placement of the analyte sensor in a secondary stream branching off of the primary stream through the device offers further control over the manner, duration, and quantity of the breath that is placed in contact with the sensor.Type: ApplicationFiled: January 9, 2015Publication date: May 7, 2015Inventors: Kevin NASON, Jonathan FAY, Bryan P. FLAHERTY, Bhairavi R. PARIKH
-
Patent number: 8932230Abstract: The flow rate of a gaseous sample of exhaled breath through an analytical device is controlled by a pump, and in certain embodiments two pumps. Placement of the analyte sensor in a secondary stream branching off of the primary stream through the device offers further control over the manner, duration, and quantity of the breath that is placed in contact with the sensor.Type: GrantFiled: February 6, 2006Date of Patent: January 13, 2015Assignee: Aerocrine ABInventors: Kevin Nason, Jonathan Fay, Bryan P. Flaherty, Bhairavi R. Parikh
-
Patent number: 8181503Abstract: The present invention is a disposable sensor for use with a device that quantifies analytes in a gaseous sample. It comprises (i) a sensing element, (ii) a means for interfacing the disposable sensor with a gas analysis device, and (iii) a housing. When used with a device that can quantify the concentration of an analyte in a gas sample, the present invention facilitates the use of exhaled breath analysis as a clinical tool.Type: GrantFiled: April 9, 2009Date of Patent: May 22, 2012Assignee: Aerocrine ABInventors: Bryan Flaherty, Bhairavi Parikh, Kevin Nason, David Chazan, Jonathan Fay, John Kaiser, James Stone