Patents by Inventor James M. Young
James M. Young 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: 11932194Abstract: An airbag inflator includes a lower pressure vessel supporting an initiator assembly, a booster can centrally mounted in the lower pressure vessel and secured to the initiator assembly, and an energetics canister secured over the booster can such that the energetics canister is positioned radially between the lower pressure vessel and the booster can. An energetics cover encloses a circumferential space between the booster can and the energetics canister. A flow diverter closes the booster can and includes inlet vent openings downstream of the energetics cover. An upper pressure vessel positioned over the flow diverter and engaging the lower pressure vessel includes an exit orifice sealed with a rupturable membrane. A manifold is secured over the upper pressure vessel. The inflator increases combustion efficiency and lowers gaseous effluents.Type: GrantFiled: December 11, 2020Date of Patent: March 19, 2024Assignee: ARC TECHNOLOGY HOLDING LIMITEDInventors: James M. Rose, Brian Thomas, Brad Hight, J. Scott DiGangi, Kenneth J. Young
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Patent number: 11919863Abstract: The disclosure is directed to improved methods for preparing substituted quinolinylcyclohexylpropanamide compounds.Type: GrantFiled: December 16, 2021Date of Patent: March 5, 2024Assignee: Bristol-Myers Squibb CompanyInventors: Albert J. Delmonte, Benjamin M. Cohen, Kenneth Joseph Fraunhoffer, Sergei Kolotuchin, Francisco Gonzalez-Bobes, Gregory Louis Beutner, Adam Joseph Freitag, Michael Scott Bultman, Yu Fan, Prantik Maity, Ian Scott Young, Hilary Plake Beck, Maksim Osipov, Jay Patrick Powers, Maureen Kay Reilly, Hunter Paul Shunatona, James Ross Walker, Mikhail Zibinsky
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Publication number: 20220117730Abstract: Methods for the conditioning of bioprosthetic material employ bovine pericardial membrane. A laser directed at the fibrous surface of the membrane and moved relative thereto reduces the thickness of the membrane to a specific uniform thickness and smooths the surface. The wavelength, power and pulse rate of the laser are selected which will smooth the fibrous surface as well as ablate the surface to the appropriate thickness. Alternatively, a dermatome is used to remove a layer of material from the fibrous surface of the membrane. Thinning may also employ compression. Stepwise compression with cross-linking to stabilize the membrane is used to avoid damaging the membrane through inelastic compression. Rather, the membrane is bound in the elastic compressed state through addition cross-linking. The foregoing several thinning techniques may be employed together to achieve strong thin membranes.Type: ApplicationFiled: December 23, 2021Publication date: April 21, 2022Inventors: Jeffrey S. Dove, Bin Tian, Ralph Schneider, Jeffrey S. Cohen, Ivan Jankovic, John F. Migliazza, Gregory A. Wright, James M. Young, Louis A. Campbell
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Patent number: 11213385Abstract: Methods for the conditioning of bioprosthetic material employ bovine pericardial membrane. A laser directed at the fibrous surface of the membrane and moved relative thereto reduces the thickness of the membrane to a specific uniform thickness and smoothes the surface. The wavelength, power and pulse rate of the laser are selected which will smooth the fibrous surface as well as ablate the surface to the appropriate thickness. Alternatively, a dermatome is used to remove a layer of material from the fibrous surface of the membrane. Thinning may also employ compression. Stepwise compression with cross-linking to stabilize the membrane is used to avoid damaging the membrane through inelastic compression. Rather, the membrane is bound in the elastic compressed state through addition cross-linking. The foregoing several thinning techniques may be employed together to achieve strong thin membranes.Type: GrantFiled: October 8, 2018Date of Patent: January 4, 2022Assignee: Edwards Lifesciences CorporationInventors: Jeffrey S. Dove, Bin Tian, Ralph Schneider, Jeffrey S. Cohen, Ivan Jankovic, John F. Migliazza, Gregory A. Wright, James M. Young, Louis A. Campbell
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Publication number: 20190038403Abstract: Methods for the conditioning of bioprosthetic material employ bovine pericardial membrane. A laser directed at the fibrous surface of the membrane and moved relative thereto reduces the thickness of the membrane to a specific uniform thickness and smoothes the surface. The wavelength, power and pulse rate of the laser are selected which will smooth the fibrous surface as well as ablate the surface to the appropriate thickness. Alternatively, a dermatome is used to remove a layer of material from the fibrous surface of the membrane. Thinning may also employ compression. Stepwise compression with cross-linking to stabilize the membrane is used to avoid damaging the membrane through inelastic compression. Rather, the membrane is bound in the elastic compressed state through addition cross-linking. The foregoing several thinning techniques may be employed together to achieve strong thin membranes.Type: ApplicationFiled: October 8, 2018Publication date: February 7, 2019Inventors: Jeffrey S. Dove, Bin Tian, Ralph Schneider, Jeffrey S. Cohen, Ivan Jankovic, John F. Migliazza, Gregory A. Wright, James M. Young, Louis A. Campbell
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Patent number: 10092399Abstract: Methods for the conditioning of bioprosthetic material employ bovine pericardial membrane. A laser directed at the fibrous surface of the membrane and moved relative thereto reduces the thickness of the membrane to a specific uniform thickness and smoothes the surface. The wavelength, power and pulse rate of the laser are selected which will smooth the fibrous surface as well as ablate the surface to the appropriate thickness. Alternatively, a dermatome is used to remove a layer of material from the fibrous surface of the membrane. Thinning may also employ compression. Stepwise compression with cross-linking to stabilize the membrane is used to avoid damaging the membrane through inelastic compression. Rather, the membrane is bound in the elastic compressed state through addition cross-linking. The foregoing several thinning techniques may be employed together to achieve strong thin membranes.Type: GrantFiled: November 21, 2016Date of Patent: October 9, 2018Assignee: Edwards Lifesciences CorporationInventors: Jeffrey S. Dove, Bin Tian, Ralph Schneider, Jeffrey S. Cohen, Ivan Jankovic, John F. Migliazza, Gregory A. Wright, James M. Young, Louis A. Campbell
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Patent number: 10068472Abstract: A method and apparatus for assisting a driver of a first vehicle determines whether the first vehicle is traveling in a first lane of a multi-lane highway. The method further determines that another vehicle is approaching the first vehicle from behind in a second lane of the multi-lane highway. The method determines that the first vehicle is being passed by the second vehicle, and outputs a warning to the driver, instructing the driver to merge into the second lane where the second vehicle had been traveling.Type: GrantFiled: June 6, 2014Date of Patent: September 4, 2018Assignee: VEONEER US, INC.Inventor: James M. Young
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Publication number: 20170071731Abstract: Methods for the conditioning of bioprosthetic material employ bovine pericardial membrane. A laser directed at the fibrous surface of the membrane and moved relative thereto reduces the thickness of the membrane to a specific uniform thickness and smoothes the surface. The wavelength, power and pulse rate of the laser are selected which will smooth the fibrous surface as well as ablate the surface to the appropriate thickness. Alternatively, a dermatome is used to remove a layer of material from the fibrous surface of the membrane. Thinning may also employ compression. Stepwise compression with cross-linking to stabilize the membrane is used to avoid damaging the membrane through inelastic compression. Rather, the membrane is bound in the elastic compressed state through addition cross-linking. The foregoing several thinning techniques may be employed together to achieve strong thin membranes.Type: ApplicationFiled: November 21, 2016Publication date: March 16, 2017Inventors: Jeffrey S. Dove, Bin Tian, Ralph Schneider, Jeffrey S. Cohen, Ivan Jankovic, John F. Migliazza, Gregory A. Wright, James M. Young, Louis A. Campbell
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Publication number: 20170021790Abstract: A sensor assembly for detecting crush of a compliant material. The sensor assembly includes a light source such as an LED, and a light sensor. In one implementation, the sensor assembly is used for detecting and impact of a motor vehicle with an external object or structure. Crush of the energy absorbing material, which may be provided in the form of an open or closed cell type polymeric foam is detected through a change in the intensity of the reflected back light received by the light sensor in response to compression of the energy absorber material. Other applications are contemplated.Type: ApplicationFiled: July 22, 2015Publication date: January 26, 2017Inventor: James M. Young
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Publication number: 20160217689Abstract: A method and system for mitigating an imminent collision of a vehicle performs the steps of detecting a sound near an outer periphery of the vehicle in at least one location; processing the sound by analyzing sound characteristics including at least one of a frequency of the sound or a volume of the sound; estimating a threat; and initiating a safety response of the vehicle.Type: ApplicationFiled: January 26, 2015Publication date: July 28, 2016Inventor: James M. Young
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Publication number: 20150356869Abstract: A method and apparatus for assisting a driver of a first vehicle determines whether the first vehicle is traveling in a first lane of a multi-lane highway. The method further determines that another vehicle is approaching the first vehicle from behind in a second lane of the multi-lane highway. The method determines that the first vehicle is being passed by the second vehicle, and outputs a warning to the driver, instructing the driver to merge into the second lane where the second vehicle had been traveling.Type: ApplicationFiled: June 6, 2014Publication date: December 10, 2015Inventor: James M. Young
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Patent number: 8846390Abstract: Methods for the conditioning of bioprosthetic material employ bovine pericardial membrane. A laser directed at the fibrous surface of the membrane and moved relative thereto reduces the thickness of the membrane to a specific uniform thickness and smoothes the surface. The wavelength, power and pulse rate of the laser are selected which will smooth the fibrous surface as well as ablate the surface to the appropriate thickness. Alternatively, a dermatome is used to remove a layer of material from the fibrous surface of the membrane. Thinning may also employ compression. Stepwise compression with cross-linking to stabilize the membrane is used to avoid damaging the membrane through inelastic compression. Rather, the membrane is bound in the elastic compressed state through addition cross-linking. The foregoing several thinning techniques may be employed together to achieve strong thin membranes.Type: GrantFiled: March 23, 2011Date of Patent: September 30, 2014Assignee: Edwards Lifesciences CorporationInventors: Jeffrey S. Dove, Bin Tian, Ralph Schneider, Jeffrey S. Cohen, Ivan Jankovic, John F. Migliazza, Gregory A. Wright, James M. Young, Louis A. Campbell
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Patent number: 8721152Abstract: In one aspect, the present invention provides light emitting devices, including light fixtures and luminaires. In some embodiments, a light emitting device comprises at least one light source, a lightguide operable to receive light from the at least one light source at a first location on the lightguide, at least one light extraction region optically coupled to the lightguide and a substantially non-scattering region along a portion of the lightguide.Type: GrantFiled: May 3, 2010Date of Patent: May 13, 2014Assignees: ABL IP Holding LLC, Fusion Optix, Inc.Inventors: Zane Coleman, John X Zhang, Peter Yi Yan Ngai, Frank Friedman, James M Young
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Patent number: 8050802Abstract: A levitated XY stage with a mechanism to disable the bearing element to allow the physical elements of the stage to come into contact with one another and “Coulomb weld” together, thereby eliminating drift. Preferably, the XY position shift of the stage that results from disabling the bearing is measured, and feed-forward communication to, for example, the AFM scanner is used to enable an offset and remove the error.Type: GrantFiled: November 3, 2006Date of Patent: November 1, 2011Assignee: Bruker Nano, Inc.Inventor: James M. Young
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Publication number: 20110238167Abstract: Methods for the conditioning of bioprosthetic material employ bovine pericardial membrane. A laser directed at the fibrous surface of the membrane and moved relative thereto reduces the thickness of the membrane to a specific uniform thickness and smoothes the surface. The wavelength, power and pulse rate of the laser are selected which will smooth the fibrous surface as well as ablate the surface to the appropriate thickness. Alternatively, a dermatome is used to remove a layer of material from the fibrous surface of the membrane. Thinning may also employ compression. Stepwise compression with cross-linking to stabilize the membrane is used to avoid damaging the membrane through inelastic compression. Rather, the membrane is bound in the elastic compressed state through addition cross-linking. The foregoing several thinning techniques may be employed together to achieve strong thin membranes.Type: ApplicationFiled: March 23, 2011Publication date: September 29, 2011Inventors: Jeffrey S. Dove, Bin Tian, Ralph Schneider, Jeffrey S. Cohen, Ivan Jankovic, John F. Migliazza, Gregory A. Wright, James M. Young, Louis A. Campbell
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Publication number: 20110013420Abstract: In one aspect, the present invention provides light emitting devices, including light fixtures and luminaires. In some embodiments, a light emitting device comprises at least one light source, a lightguide operable to receive light from the at least one light source at a first location on the lightguide, at least one light extraction region optically coupled to the lightguide and a substantially non-scattering region along a portion of the lightguide.Type: ApplicationFiled: May 3, 2010Publication date: January 20, 2011Inventors: Zane Coleman, John X. Zhang, Peter Yi Yan Ngai, Frank Friedman, James M. Young
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Patent number: 7665349Abstract: A method and apparatus of engaging a probe with a sample surface including automatically reducing the spacing between a probe of a probe based instrument and a sample from an initial separation to one in which the probe is positioned for obtaining a sample surface measurement in less than ten seconds without damaging either the probe or the sample. The method includes oscillating the probe, measuring at least one parameter of probe oscillation and then engaging the probe and the sample by generally continuously controlling the reducing step based on the measuring step to reduce the separation from an initial separation to an engage position. In addition to feeding back directly on the tip-sample interaction, a direct communication line is provided between the processor used to generate control signals that govern the engage and a conventional motion controller.Type: GrantFiled: May 19, 2005Date of Patent: February 23, 2010Assignee: Veeco Instruments Inc.Inventors: Paul I. Mininni, Jason R. Osborne, James M. Young, Charles R. Meyer
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Publication number: 20080121813Abstract: A levitated XY stage with a mechanism to disable the bearing element to allow the physical elements of the stage to come into contact with one another and “Coulomb weld” together, thereby eliminating drift. Preferably, the XY position shift of the stage that results from disabling the bearing is measured, and feed-forward communication to, for example, the AFM scanner is used to enable an offset and remove the error.Type: ApplicationFiled: November 3, 2006Publication date: May 29, 2008Inventor: James M. Young
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Publication number: 20030117018Abstract: A current mirror seatbelt interface circuit and method for accurately determining seatbelt latch status in a passenger vehicle safety system. By the use of a current mirror circuit, the current through the seatbelt latches can be accurately determined. This determination is used to activate (if the seatbelts are buckled) or inactivate (if the seatbelts are unbuckled) the safety protection systems including passenger airbags and seatbelt tensioners. The current through the seatbelt latch sensor is mirrored through the circuit herein disclosed. The mirrored current is monitored and the current value is analyzed by an airbag control microprocessor circuit to activate or inactivate the safety system. Parallel wired matching transistors in conjunction with a control transistor accurately provide the mirrored current information to the microprocessor. In addition, multiple seatbelt latch sensors can be connected to the current mirror by adding control transistors for each additional seatbelt latch.Type: ApplicationFiled: December 21, 2001Publication date: June 26, 2003Inventor: James M. Young
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Publication number: 20020153189Abstract: System and method for selectively withholding or allowing activation of a seatbelt tensioner device, depending upon whether or not a seatbelt latch or other latchable instrument is closed. The system includes an electrical circuit including a first resistor in series with a shunt circuit, the shunt circuit including a second resistor in a first shunt to arm an electrical switch having negligible resistance in a second shunt arm. A first terminal of the circuit is connected to a first terminal of the voltage source. Second terminals of the voltage source and the circuit are connected to first and second terminals of the airbag activation circuit or seatbelt tensioner activator, which are activated only if a current passing through the activation circuit is greater than a selected threshold current. The first and second resistance values are chosen so that this current exceeds the threshold current only when the switch is closed, which occurs only when a seatbelt is latched.Type: ApplicationFiled: April 23, 2001Publication date: October 24, 2002Inventor: James M. Young