Patents by Inventor John A. Jenkins
John A. Jenkins 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).
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Patent number: 11188292Abstract: Systems and methods are disclosed herein for customized presentation of sound data associated with the operation of electromechanical equipment, wherein users of varying hearing capabilities can ascertain conditions of the equipment in real time. A sound detection device includes transducers which collect sound signals from the equipment and convert the sound signals into digital sound data. A processor generates a first audio data set corresponding to the digital sound data received from the sound detection device and, for a given human user, identifies an audio profile comprising perceivable audio frequency ranges. A target frequency range is identified within the perceivable audio frequency ranges for the given human user, and the first audio data set is shifted or mapped to the target frequency range to generate a second audio data set. Audio output signals corresponding to the second audio data set are user-selectively delivered to the user via an audio receiver.Type: GrantFiled: April 3, 2020Date of Patent: November 30, 2021Assignee: Discovery Sound Technology, LLCInventor: John Jenkins
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Publication number: 20210097969Abstract: Disclosed embodiments may relate to systems and methods for monitoring and/or mapping noise data from a plurality of noise monitoring devices. In some embodiments, the plurality of noise monitoring devices may include hearing protection devices configured to detect noise, and typically may communicate such noise data (which may also include location) so that the noise data can be pooled. The pooled noise data from the plurality of noise monitoring devices may then be used to the benefit of one or more of such noise monitoring devices.Type: ApplicationFiled: December 14, 2020Publication date: April 1, 2021Inventors: Neal Muggleton, Trym Holter, Viggo Henriksen, Claes Haglund, May Wilson, John Jenkins
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Patent number: 10896667Abstract: Disclosed embodiments may relate to systems and methods for monitoring and/or mapping noise data from a plurality of noise monitoring devices. In some embodiments, the plurality of noise monitoring devices may include hearing protection devices configured to detect noise, and typically may communicate such noise data (which may also include location) so that the noise data can be pooled. The pooled noise data from the plurality of noise monitoring devices may then be used to the benefit of one or more of such noise monitoring devices.Type: GrantFiled: February 8, 2018Date of Patent: January 19, 2021Assignee: HONEYWELL INTERNATIONAL INC.Inventors: Neal Muggleton, Trym Holter, Viggo Henriksen, Claes Haglund, May Wilson, John Jenkins
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Publication number: 20200405249Abstract: A real-time fluoroscopic imaging system includes a collimator and a detector which are rotationally movable independent of the support assembly, e.g., c-arm, to which they are mounted. Rotational movement of the collimator and the detector are coordinated such that the orientation of the detector with respect to the collimator does not change. The collimator may include a geared flange member to facilitate rotation, and may be a single molded piece formed of a plastic such as tungsten polymer material. The system may also include a plurality of interchangeable collimators characterized by different shapes. A display is provided to present an image to an operator, and image orientation logic displays a target anatomy in a selected orientation regardless of orientation of the target anatomy relative to the detector, and regardless of rotation of the detector.Type: ApplicationFiled: August 25, 2020Publication date: December 31, 2020Applicant: HOLOGIC, INC.Inventors: John Jenkins, Mark Guetersloh, Aleksey Danilkin, Tri Pham
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Patent number: 10856067Abstract: A hearing protection device configured to measure the noise exposure of a user and to provide a time remaining estimate until a maximum noise exposure level is achieved. Generally, the hearing protection device may comprise a sound sealing section, a microphone configured to generate a detected sound signal indicative of the measured sound level at the user's ear canal, a memory/storage configured to record the detected sound signal as sound exposure history, a timer configured to measure the amount of time the hearing protection device is exposed to sound, and a processor configured to receive a timer signal from the timer and the detected sound signal to calculate a time remaining estimate until reaching the maximum noise exposure level. Additionally, the maximum noise exposure level may be based on industry regulations or personalized hearing thresholds.Type: GrantFiled: October 4, 2019Date of Patent: December 1, 2020Assignee: Honeywell International Inc.Inventors: John Jenkins, Neal Muggleton, Viggo Henriksen, May Wilson, Trym Holter, Claes Haglund
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Patent number: 10786216Abstract: A real-time fluoroscopic imaging system includes a collimator and a detector which are rotationally movable independent of the support assembly, e.g., c-arm, to which they are mounted. Rotational movement of the collimator and the detector are coordinated such that the orientation of the detector with respect to the collimator does not change. The collimator may include a geared flange member to facilitate rotation, and may be a single molded piece formed of a plastic such as tungsten polymer material. The system may also include a plurality of interchangeable collimators characterized by different shapes. A display is provided to present an image to an operator, and image orientation logic displays a target anatomy in a selected orientation regardless of orientation of the target anatomy relative to the detector, and regardless of rotation of the detector.Type: GrantFiled: March 15, 2019Date of Patent: September 29, 2020Assignee: HOLOGIC, INC.Inventors: John Jenkins, Mark Guetersloh, Aleksey Danilkin, Tri Pham
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Publication number: 20200037060Abstract: A hearing protection device configured to measure the noise exposure of a user and to provide a time remaining estimate until a maximum noise exposure level is achieved. Generally, the hearing protection device may comprise a sound sealing section, a microphone configured to generate a detected sound signal indicative of the measured sound level at the user's ear canal, a memory/storage configured to record the detected sound signal as sound exposure history, a timer configured to measure the amount of time the hearing protection device is exposed to sound, and a processor configured to receive a timer signal from the timer and the detected sound signal to calculate a time remaining estimate until reaching the maximum noise exposure level. Additionally, the maximum noise exposure level may be based on industry regulations or personalized hearing thresholds.Type: ApplicationFiled: October 4, 2019Publication date: January 30, 2020Inventors: John Jenkins, Neal Muggleton, Viggo Henriksen, May Wilson, Trym Holter, Claes Haglund
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Publication number: 20200015765Abstract: A real-time fluoroscopic imaging system includes a collimator and a detector which are rotationally movable independent of the support assembly, e.g., c-arm, to which they are mounted. Rotational movement of the collimator and the detector are coordinated such that the orientation of the detector with respect to the collimator does not change. The collimator may include a geared flange member to facilitate rotation, and may be a single molded piece formed of a plastic such as tungsten polymer material. The system may also include a plurality of interchangeable collimators characterized by different shapes. A display is provided to present an image to an operator, and image orientation logic displays a target anatomy in a selected orientation regardless of orientation of the target anatomy relative to the detector, and regardless of rotation of the detector.Type: ApplicationFiled: March 15, 2019Publication date: January 16, 2020Applicant: HOLOGIC, INC.Inventors: John JENKINS, Mark GUETERSLOH, Aleksey DANILKIN, Tri PHAM
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Publication number: 20190385583Abstract: Disclosed embodiments may relate to systems and methods for monitoring and/or mapping noise data from a plurality of noise monitoring devices. In some embodiments, the plurality of noise monitoring devices may include hearing protection devices configured to detect noise, and typically may communicate such noise data (which may also include location) so that the noise data can be pooled. The pooled noise data from the plurality of noise monitoring devices may then be used to the benefit of one or more of such noise monitoring devices.Type: ApplicationFiled: February 8, 2018Publication date: December 19, 2019Applicant: Honeywell International Inc.Inventors: Neal MUGGLETON, Trym HOLTER, Viggo HENRIKSEN, Claes HAGLUND, May WILSON, John JENKINS
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Patent number: 10455318Abstract: A hearing protection earmuff may be configured to dampen vibrations at an interface. Generally, the hearing protection earmuff may comprise two ear cups, a headband attached to and connecting the ear cups, one or more sensors, a processor, an electroacoustic shock absorber, and an electromagnetic controller. Typically, the electromagnetic controller may be associated with an electroacoustic shock absorber and may be configured to control the dampening of the electroacoustic shock absorber. The dampening of the electroacoustic shock absorber may occur as a smart fluid changes viscosity in response to a signal received from the electromagnetic controller. In some embodiments, the clamping force between the headband and the ear cup may be varied by the electroacoustic shock absorber to minimize the vibrational impact on the user's ears. In some embodiments, the electroacoustic shock absorber may control the compressibility of the seal cushion located on each ear cup.Type: GrantFiled: May 2, 2018Date of Patent: October 22, 2019Assignee: HONEYWELL INTERNATIONAL INC.Inventors: John Jenkins, Neal Muggleton, Viggo Henriksen, May Wilson
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Patent number: 10440463Abstract: A hearing protection device configured to measure the noise exposure of a user and to provide a time remaining estimate until a maximum noise exposure level is achieved. Generally, the hearing protection device may comprise a sound sealing section, a microphone configured to generate a detected sound signal indicative of the measured sound level at the user's ear canal, a memory/storage configured to record the detected sound signal as sound exposure history, a timer configured to measure the amount of time the hearing protection device is exposed to sound, and a processor configured to receive a timer signal from the timer and the detected sound signal to calculate a time remaining estimate until reaching the maximum noise exposure level. Additionally, the maximum noise exposure level may be based on industry regulations or personalized hearing thresholds.Type: GrantFiled: June 8, 2018Date of Patent: October 8, 2019Assignee: HONEYWELL INTERNATIONAL INC.Inventors: John Jenkins, Neal Muggleton, Viggo Henriksen, May Wilson, Trym Holter, Claes Haglund
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Patent number: 10311407Abstract: A method includes receiving an indication that a communication is to be sent from the first party to a second party, and, for the communication from the first party to the second party, generating a code that encodes an indication of a communication routing between the first party and the second party. The computer-implemented method further includes embedding the code into the communication such that the code is sent with the communication from the first party to the second party, receiving a response to the communication, wherein the response to the communication includes the embedded code, and decoding the embedded code to determine the communication routing between the first party and the second party. Still further, the computer-implemented method includes causing the response to the communication to be routed to the first party based on the determined communication routing.Type: GrantFiled: October 30, 2014Date of Patent: June 4, 2019Assignee: STATE FARM MUTUAL AUTOMOBILE INSURANCE COMPANYInventors: John M. Dillard, William Richard Simonovich, II, John Jenkins, Chadd Eugene Grove, Kimberly J. Timmons, Christy L. Conn, Kannan Balakrishnan
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Patent number: 10271807Abstract: A real-time fluoroscopic imaging system includes a collimator and a detector which are rotationally movable independent of the support assembly, e.g., c-arm, to which they are mounted. Rotational movement of the collimator and the detector are coordinated such that the orientation of the detector with respect to the collimator does not change. The collimator may include a geared flange member to facilitate rotation, and may be a single molded piece formed of a plastic such as tungsten polymer material. The system may also include a plurality of interchangeable collimators characterized by different shapes. A display is provided to present an image to an operator, and image orientation logic displays a target anatomy in a selected orientation regardless of orientation of the target anatomy relative to the detector, and regardless of rotation of the detector.Type: GrantFiled: January 4, 2018Date of Patent: April 30, 2019Assignee: HOLOGIC, INC.Inventors: John Jenkins, Mark Guetersloh, Aleksey Danilkin, Tri Pham
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Patent number: 10156844Abstract: A server-based system provides remote configuration of client electromechanical equipment and comparative analysis of sound data obtained therefrom. The server obtains equipment identification data from an endpoint device, and determines a confidence level of a suggested equipment configuration relative to various types of equipment having associated sound data files stored in a database. For sufficient matches (confidence levels exceeding a predetermined threshold value), the server associates the equipment with a selected one of the types of equipment, and conveys at least predetermined sound inspection positions to the endpoint device. A sound detection device is applied respective to the inspection points, wherein analog sound signals are collected from the equipment and converted into digital sound data.Type: GrantFiled: February 18, 2017Date of Patent: December 18, 2018Assignee: Discovery Sound Technology, LLCInventors: John Jenkins, Jonathan Allan Harper
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Publication number: 20180359555Abstract: A hearing protection device configured to measure the noise exposure of a user and to provide a time remaining estimate until a maximum noise exposure level is achieved. Generally, the hearing protection device may comprise a sound sealing section, a microphone configured to generate a detected sound signal indicative of the measured sound level at the user's ear canal, a memory/storage configured to record the detected sound signal as sound exposure history, a timer configured to measure the amount of time the hearing protection device is exposed to sound, and a processor configured to receive a timer signal from the timer and the detected sound signal to calculate a time remaining estimate until reaching the maximum noise exposure level. Additionally, the maximum noise exposure level may be based on industry regulations or personalized hearing thresholds.Type: ApplicationFiled: June 8, 2018Publication date: December 13, 2018Inventors: John Jenkins, Neal Muggleton, Viggo Henriksen, May Wilson, Trym Holter, Claes Haglund
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Patent number: 10145761Abstract: A system and method are provided for equipment sound monitoring. The system includes an electromechanical device having at least one cavity defined therein. A dampening tube is such that at least a portion of the dampening tube is received within the at least one cavity without contacting a surface of the electromechanical device. A transducer box includes an opening defined therein, the opening configured to receive at least a portion of the dampening tube. The transducer box further includes a sound detection module configured to detect at least one of audio and vibration associated with the electromechanical device. A method of connecting and using the equipment sound monitoring system are provided.Type: GrantFiled: July 10, 2017Date of Patent: December 4, 2018Assignee: Discovery Sound Technology, LLCInventors: John Jenkins, Mike Stumpf
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Patent number: 10136211Abstract: Embodiments relate generally to methods for customizing speakers in hearing protection earcups in conjunction with an amplifier so that the maximum speaker output may be capped, for example to acceptable OSHA or other such standards. By customizing such speaker(s), the maximum speaker output may be set precisely at the desired cap level. Thus, hearing may be protected, while also ensuring that maximum speaker output will not undershoot the desired cap level (which might negatively affect performance).Type: GrantFiled: December 17, 2014Date of Patent: November 20, 2018Assignee: Honeywell International Inc.Inventor: John Jenkins
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Publication number: 20180324517Abstract: A hearing protection earmuff may be configured to dampen vibrations at an interface. Generally, the hearing protection earmuff may comprise two ear cups, a headband attached to and connecting the ear cups, one or more sensors, a processor, an electroacoustic shock absorber, and an electromagnetic controller. Typically, the electromagnetic controller may be associated with an electroacoustic shock absorber and may be configured to control the dampening of the electroacoustic shock absorber. The dampening of the electroacoustic shock absorber may occur as a smart fluid changes viscosity in response to a signal received from the electromagnetic controller. In some embodiments, the clamping force between the headband and the ear cup may be varied by the electroacoustic shock absorber to minimize the vibrational impact on the user's ears. In some embodiments, the electroacoustic shock absorber may control the compressibility of the seal cushion located on each ear cup.Type: ApplicationFiled: May 2, 2018Publication date: November 8, 2018Inventors: John Jenkins, Neal Muggleton, Viggo Henriksen, May Wilson
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Publication number: 20180206806Abstract: A real-time fluoroscopic imaging system includes a collimator and a detector which are rotationally movable independent of the support assembly, e.g., c-arm, to which they are mounted. Rotational movement of the collimator and the detector are coordinated such that the orientation of the detector with respect to the collimator does not change. The collimator may include a geared flange member to facilitate rotation, and may be a single molded piece formed of a plastic such as tungsten polymer material. The system may also include a plurality of interchangeable collimators characterized by different shapes. A display is provided to present an image to an operator, and image orientation logic displays a target anatomy in a selected orientation regardless of orientation of the target anatomy relative to the detector, and regardless of rotation of the detector.Type: ApplicationFiled: January 4, 2018Publication date: July 26, 2018Applicant: HOLOGIC, INC.Inventors: John JENKINS, Mark GUETERSLOH, Aleksey DANILKIN, Tri PHAM
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Patent number: D939779Type: GrantFiled: February 20, 2019Date of Patent: December 28, 2021Assignee: HONEYWELL INTERNATIONAL INC.Inventors: John Jenkins, Scott Hutt, Wei Sun, Yongjun Chen, Lei Jiang