Patents by Inventor Dylan Moore

Dylan Moore 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: 20240375383
    Abstract: A cellulose based bottom web, package made therefrom and method for manufacture. The bottom is primarily made from cellulose based material. The bottom web having a seal layer on its surface. The seal layer being mostly made from polymeric material. The bottom web being semi-rigid and thermoformable. The bottom web having between 80-99.5 wt % cellulose based material and 0.5-20 wt % polymeric material. A flexible top web is sealed to the bottom web to form a package.
    Type: Application
    Filed: August 26, 2022
    Publication date: November 14, 2024
    Inventors: Robert Babrowicz, Dylan Hopkins, Robert Scott Corey, Edward Moore
  • Publication number: 20240359216
    Abstract: A method for harvesting heavy mineral from a regolith may comprise: flowing a layer of particulate feedstock over a distribution chute having an uneven surface texture, the particulate feedstock comprising first particulates and second particulates that differ by at least one property; changing a momentum of individual particulates in the particulate feedstock while flowing over the distribution chute and/or after leaving the distribution chute such that the first particulates and the second particulates, on average, travel different lateral distances from the distribution chute; and collecting the particulate feedstock in a plurality of bins, wherein at least two of the bins are laterally spaced differently from the distribution chute.
    Type: Application
    Filed: July 8, 2024
    Publication date: October 31, 2024
    Applicant: RADCAT RESEARCH, LLC
    Inventors: Theodore Casey MOORE, Aidan Trefor MOORE, Connor Dylan MOORE, Rhianna Deirdre MOORE
  • Patent number: 11826512
    Abstract: A ventilator, including an enclosure; a tubing configured to receive an input gas; a flow outlet airline in fluid communication with the tubing, wherein the flow outlet airline includes an airline outlet, and the flow outlet airline is configured to supply an output gas to a user via the airline outlet; a breath detection airline including an airline inlet, wherein the airline inlet is separated from the airline outlet of the flow outlet airline, and the breath detection airline is configured to receive breathing gas from the user during exhalation by the user via the airline inlet; a pressure sensor in direct fluid communication with the breath detection airline, wherein the pressure sensor is configured to measure breathing pressure from the user, and the pressure sensor is configured to generate sensor data indicative of breathing by the user.
    Type: Grant
    Filed: January 25, 2022
    Date of Patent: November 28, 2023
    Assignee: Aires Medical LLC.
    Inventors: Nicholas Leonard Oddo, Shane Woody, Chad Josey, Dylan Moore
  • Publication number: 20220370751
    Abstract: A ventilator includes a bidirectional breath detection airline and a flow outlet airline. The flow outlet airline includes an airline outlet. The flow outlet airline is configured to be connected to an invasive ventilator circuit or a noninvasive ventilator circuit. The breath detection airline includes airline inlet. The airline inlet is separated from the airline outlet of the flow outlet airline. The ventilator further includes a pressure sensor in direct fluid communication with the breath detection airline. The pressure sensor is configured to measure breathing pressure from the user and generate sensor data indicative of breathing by the user. The ventilator further includes a controller in electronic communication with the pressure sensor. The controller is programmed to detect the breathing by the user based on the sensor data received from the pressure sensor.
    Type: Application
    Filed: July 6, 2022
    Publication date: November 24, 2022
    Applicant: Beech Health, Inc.
    Inventors: Nicholas Leonard Oddo, Shane Woody, Chad Josey, Dylan Moore
  • Patent number: 11400250
    Abstract: A ventilator includes a bidirectional breath detection airline and a flow outlet airline. The flow outlet airline includes an airline outlet. The flow outlet airline is configured to be connected to an invasive ventilator circuit or a noninvasive ventilator circuit. The breath detection airline includes airline inlet. The airline inlet is separated from the airline outlet of the flow outlet airline. The ventilator further includes a pressure sensor in direct fluid communication with the breath detection airline. The pressure sensor is configured to measure breathing pressure from the user and generate sensor data indicative of breathing by the user. The ventilator further includes a controller in electronic communication with the pressure sensor. The controller is programmed to detect the breathing by the user based on the sensor data received from the pressure sensor.
    Type: Grant
    Filed: August 18, 2020
    Date of Patent: August 2, 2022
    Assignee: Aires Medical LLC
    Inventors: Nicholas Leonard Oddo, Shane Woody, Chad Josey, Dylan Moore
  • Patent number: 11359733
    Abstract: A check valve can include a pressure actuator or an electromagnetic actuator. The check valve includes a valve inlet, a valve outlet, and flap disposed between the valve inlet and the valve outlet. The pressure actuator in fluid communication with the valve inlet. The check valve has an open state and a closed state. The check valve is configured to allow an input gas to flow from the valve inlet to the valve outlet when the check valve is in the open state. The check valve is configured to preclude the input gas from flowing from the valve inlet to the valve outlet when the check valve is in the closed state. Upon actuation of the pressure actuator or the electromagnetic actuator, the flap moves away from the valve inlet to allow the inlet gas to move from the valve inlet to the valve outlet.
    Type: Grant
    Filed: August 18, 2020
    Date of Patent: June 14, 2022
    Assignee: BEECH HEALTH, INC.
    Inventors: Nicholas Leonard Oddo, Shane Woody, Chad Josey, Dylan Moore
  • Publication number: 20220143353
    Abstract: A ventilator, including an enclosure; a tubing configured to receive an input gas; a flow outlet airline in fluid communication with the tubing, wherein the flow outlet airline includes an airline outlet, and the flow outlet airline is configured to supply an output gas to a user via the airline outlet; a breath detection airline including an airline inlet, wherein the airline inlet is separated from the airline outlet of the flow outlet airline, and the breath detection airline is configured to receive breathing gas from the user during exhalation by the user via the airline inlet; a pressure sensor in direct fluid communication with the breath detection airline, wherein the pressure sensor is configured to measure breathing pressure from the user, and the pressure sensor is configured to generate sensor data indicative of breathing by the user.
    Type: Application
    Filed: January 25, 2022
    Publication date: May 12, 2022
    Applicant: Aires Medical LLC.
    Inventors: Nicholas Leonard Oddo, Shane Woody, Chad Josey, Dylan Moore
  • Patent number: 11229763
    Abstract: A ventilator includes an enclosure, a tubing configured to receive an input gas, and a flow outlet airline in fluid communication with the tubing. The flow outlet airline includes an airline outlet. The ventilator further includes a breath detection airline including an airline inlet. The airline inlet is separated from the airline outlet of the flow outline airline. The ventilator further includes a pressure sensor in direct fluid communication with the breath detection airline. The ventilator includes a controller in electronic communication with the pressure sensor and an internal oxygen concentrator in fluid communication with the tubing. The internal oxygen concentrator is entirely disposed inside the enclosure.
    Type: Grant
    Filed: August 18, 2020
    Date of Patent: January 25, 2022
    Assignee: Aires Medical LLC
    Inventors: Nicholas Leonard Oddo, Shane Woody, Chad Josey, Dylan Moore
  • Publication number: 20210386291
    Abstract: In an aspect, a system for a cloud-based user physiology detection software and patient monitoring system. A system includes a wearable device. A wearable device includes a sensor. A sensor is configured to receive physiological data from a user. A system includes a patient monitor configured to monitor a vital sign of a user. A system includes a therapeutic delivery device configured to administer a therapeutic remedy to a user. A system includes a computing device configured to modify a therapeutic remedy of a therapeutic delivery device as a function of physiological data. A method of providing a therapeutic remedy using a cloud-based detection software is also disclosed.
    Type: Application
    Filed: August 27, 2021
    Publication date: December 16, 2021
    Applicant: AIRES MEDICAL LLC
    Inventors: Nicholas Leonard Oddo, Shane Woody, Chad Josey, Dylan Moore
  • Patent number: 11135392
    Abstract: A ventilator includes a bidirectional breath detection airline and a flow outlet airline. The flow outlet airline includes an airline outlet. The flow outlet airline is configured to be connected to an invasive ventilator circuit or a noninvasive ventilator circuit. The breath detection airline includes airline inlet. The airline inlet is separated from the airline outlet of the flow outlet airline. The ventilator further includes a pressure sensor in direct fluid communication with the breath detection airline. The pressure sensor is configured to measure breathing pressure from the user and generate sensor data indicative of breathing by the user. The ventilator further includes a controller in electronic communication with the pressure sensor. The controller is programmed to detect the breathing by the user based on the sensor data received from the pressure sensor.
    Type: Grant
    Filed: August 18, 2020
    Date of Patent: October 5, 2021
    Assignee: Aires Medical LLC
    Inventors: Nicholas Leonard Oddo, Shane Woody, Chad Josey, Dylan Moore
  • Patent number: 11123505
    Abstract: A breathing apparatus includes a flow outlet airline in fluid communication with the tubing and breath detection software. The flow outlet airline includes an airline outlet, and the flow outlet airline is configured to supply an output gas to a user via the airline outlet. The breathing apparatus further includes a breath detection airline including an airline inlet. The breath detection airline is configured to receive breathing gas from the user during exhalation by the user via the airline inlet. The breathing apparatus further includes a pressure sensor in direct fluid communication with the breath detection airline. The pressure sensor is configured to measure breathing pressure from the user and to generate sensor pressure data indicative of breathing by the user. The controller is programmed to predict the breathing by the user based on the sensor breathing data received from the pressure sensor.
    Type: Grant
    Filed: August 18, 2020
    Date of Patent: September 21, 2021
    Assignee: Aires Medical LLC
    Inventors: Nicholas Leonard Oddo, Shane Woody, Chad Josey, Dylan Moore
  • Publication number: 20210048112
    Abstract: A check valve can include a pressure actuator or an electromagnetic actuator. The check valve includes a valve inlet, a valve outlet, and flap disposed between the valve inlet and the valve outlet. The check valve has an open state and a closed state. The pressure actuator in fluid communication with the valve inlet. The check valve has an open state and a closed state. The check valve is configured to allow an input gas to flow from the valve inlet to the valve outlet when the check valve is in the open state. The check valve is configured to preclude the input gas from flowing from the valve inlet to the valve outlet when the check valve is in the closed state. Upon actuation of the pressure actuator or the electromagnetic actuator, the flap moves away from the valve inlet to allow the inlet gas to move from the valve inlet to the valve outlet.
    Type: Application
    Filed: October 19, 2020
    Publication date: February 18, 2021
    Applicant: Aires Medical LLC
    Inventors: Nicholas Leonard Oddo, Shane Woody, Chad Josey, Dylan Moore
  • Publication number: 20210038855
    Abstract: A ventilator includes an enclosure, a tubing configured to receive an input gas, and a flow outlet airline in fluid communication with the tubing. The flow outlet airline includes an airline outlet. The ventilator further includes a breath detection airline including an airline inlet. The airline inlet is separated from the airline outlet of the flow outline airline. The ventilator further includes a pressure sensor in direct fluid communication with the breath detection airline. The ventilator includes a controller in electronic communication with the pressure sensor and an internal oxygen concentrator in fluid communication with the tubing. The internal oxygen concentrator is entirely disposed inside the enclosure.
    Type: Application
    Filed: August 18, 2020
    Publication date: February 11, 2021
    Applicant: Aires Medical LLC
    Inventors: Nicholas Leonard Oddo, Shane Woody, Chad Josey, Dylan Moore
  • Publication number: 20210038840
    Abstract: A breathing apparatus includes a flow outlet airline in fluid communication with the tubing and breath detection software. The flow outlet airline includes an airline outlet, and the flow outlet airline is configured to supply an output gas to a user via the airline outlet. The breathing apparatus further includes a breath detection airline including an airline inlet. The breath detection airline is configured to receive breathing gas from the user during exhalation by the user via the airline inlet. The breathing apparatus further includes a pressure sensor in direct fluid communication with the breath detection airline. The pressure sensor is configured to measure breathing pressure from the user and to generate sensor pressure data indicative of breathing by the user. The controller is programmed to predict the breathing by the user based on the sensor breathing data received from the pressure sensor.
    Type: Application
    Filed: August 18, 2020
    Publication date: February 11, 2021
    Applicant: Aires Medical LLC
    Inventors: Nicholas Leonard Oddo, Shane Woody, Chad Josey, Dylan Moore
  • Publication number: 20210038856
    Abstract: A ventilator includes a bidirectional breath detection airline and a flow outlet airline. The flow outlet airline includes an airline outlet. The ventilator further includes a breath detection airline including airline inlet. The airline inlet is separated from the airline outlet of the flow outline airline. The breath detection airline is configured to receive breathing gas from the user during exhalation by the user via the airline inlet. The ventilator further includes a pressure sensor in direct fluid communication with the breath detection airline. The pressure sensor is configured to measure breathing pressure from the user and generate sensor data indicative of breathing by the user. The ventilator further includes a controller in electronic communication with the pressure sensor. The controller is programmed to detect the breathing by the user based on the sensor data received from the pressure sensor.
    Type: Application
    Filed: August 18, 2020
    Publication date: February 11, 2021
    Applicant: Aires Medical LLC
    Inventors: Nicholas Leonard Oddo, Shane Woody, Chad Josey, Dylan Moore
  • Publication number: 20210001075
    Abstract: A ventilator includes a bidirectional breath detection airline and a flow outlet airline. The flow outlet airline includes an airline outlet. The flow outline airline is configured to be connected to an invasive ventilator circuit or a noninvasive ventilator circuit. The breath detection airline includes airline inlet. The airline inlet is separated from the airline outlet of the flow outline airline. The ventilator further includes a pressure sensor in direct fluid communication with the breath detection airline. The pressure sensor is configured to measure breathing pressure from the user and generate sensor data indicative of breathing by the user. The ventilator further includes a controller in electronic communication with the pressure sensor. The controller is programmed to detect the breathing by the user based on the sensor data received from the pressure sensor.
    Type: Application
    Filed: August 18, 2020
    Publication date: January 7, 2021
    Applicant: Aires Medical LLC
    Inventors: Nicholas Leonard Oddo, Shane Woody, Chad Josey, Dylan Moore
  • Publication number: 20200386333
    Abstract: A check valve can include a pressure actuator or an electromagnetic actuator. The check valve includes a valve inlet, a valve outlet, and flap disposed between the valve inlet and the valve outlet. The check valve has an open state and a closed state. The pressure actuator in fluid communication with the valve inlet. The check valve has an open state and a closed state. The check valve is configured to allow an input gas to flow from the valve inlet to the valve outlet when the check valve is in the open state. The check valve is configured to preclude the input gas from flowing from the valve inlet to the valve outlet when the check valve is in the closed state. Upon actuation of the pressure actuator or the electromagnetic actuator, the flap moves away from the valve inlet to allow the inlet gas to move from the valve inlet to the valve outlet.
    Type: Application
    Filed: August 18, 2020
    Publication date: December 10, 2020
    Applicant: Aires Medical LLC
    Inventors: Nicholas Leonard Oddo, Shane Woody, Chad Josey, Dylan Moore
  • Publication number: 20180035757
    Abstract: Described are materials for a shoe upper, in particular for soccer shoes, with a particularly low weight. The material includes an inner polyurethane layer, an outer polyurethane layer, and a textile reinforcing layer. The textile reinforcing layer is arranged between the inner polyurethane layer and the outer polyurethane layer. The inner polyurethane layer and the outer polyurethane layer comprise thermoset polyurethane. The textile reinforcing layer comprises apertures through which the inner polyurethane layer and the outer polyurethane layer are connected to each other.
    Type: Application
    Filed: August 22, 2017
    Publication date: February 8, 2018
    Inventors: Dirk Meythaler, Harald Geyer, Marco Fischhold, Robert Frank Kirk, Jack Huang, Bruno Jean Antonelli, Ernie Rustam, Dylan Moore
  • Patent number: 9763494
    Abstract: Described are materials for a shoe upper, in particular for soccer shoes, with a particularly low weight. The material includes an inner polyurethane layer, an outer polyurethane layer, and a textile reinforcing layer. The textile reinforcing layer is arranged between the inner polyurethane layer and the outer polyurethane layer. The inner polyurethane layer and the outer polyurethane layer comprise thermoset polyurethane. The textile reinforcing layer comprises apertures through which the inner polyurethane layer and the outer polyurethane layer are connected to each other.
    Type: Grant
    Filed: January 7, 2014
    Date of Patent: September 19, 2017
    Assignee: adidas AG
    Inventors: Dirk Meythaler, Harald Geyer, Marco Fischhold, Robert Frank Kirk, Jack Huang, Bruno Jean Antonelli, Ernie Rustam, Dylan Moore
  • Patent number: 9713357
    Abstract: An asymmetric pair of shoes to optimize performance during a sporting activity, the asymmetric pair of shoes, including: a first shoe having a first upper and a first sole attached to the first upper, wherein the first upper comprises a first support feature configured to provide increased support to at least one portion of the first upper during performance of a first predetermined action of a first foot of a wearer, and the first sole comprises a first traction feature configured to provide increased traction to at least one portion of the first sole during performance of the first predetermined action of the first foot; and a second shoe having a second upper and a second sole attached to the second upper, wherein the first support feature and first traction feature are not present at corresponding mirror-image locations of the second shoe.
    Type: Grant
    Filed: January 12, 2015
    Date of Patent: July 25, 2017
    Assignee: TAYLOR MADE GOLF COMPANY, INC.
    Inventors: Masun Denison, Michael Hesterberg, Dylan Moore