Patents by Inventor Robert G. W. Brown
Robert G. W. Brown 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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Publication number: 20240192367Abstract: The present invention is directed to a system for measuring noise and velocity of a single object or surface in a soundscape of multiple noise-emitting objects or surfaces. The present invention features a system comprising a heterodyne signal system comprising a signal emitter, a signal receiver, and a signal processing component capable of directing an original signal to the object or surface, accepting a return signal Doppler shifted and mixed with the original signal, and removing the original signal, resulting in an output signal. The system may further comprise an acoustic spectrum analyzer capable of calculating a radiation-factor from the output signal, calculating a mean-squared velocity value by calculating a variance of a spectral shape of the output signal, calculating a noise-sound-power value from the mean-squared velocity value and the radiation-factor, and converting the noise-sound-power value into an acoustic decibel value.Type: ApplicationFiled: August 31, 2022Publication date: June 13, 2024Inventors: Robert G. W. Brown, Jason E. Dunne
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Publication number: 20220192537Abstract: The present invention features an optical detection system for SARS-CoV-2 or other pathogens, which includes a specialty mask. The specialty mask incorporates a SERS nanopatch for accumulating pathogenic particles from a wearers breath. When the SERS nanopatch receives incident NIR light, backscattered light from the SERS nanopatch is detected by a receiver and analyzed for a Raman spectral shift. Detection of the Raman spectral signature from the SERS nanopatch allows for determination if SARS-CoV-2 or another pathogen is present. In addition to the mask with a nanostructured surface for collecting pathogenic material, the system includes a laser source directed at the nanostructured surface, a detection system to collect backscattered light, a spectral analysis system to detect Raman shifted light, and an analysis system for determining if SARS-CoV-2 or another pathogen is present. AI image processing may be used to steer the laser beam safely to the nanopatch, avoiding eye contact.Type: ApplicationFiled: December 17, 2021Publication date: June 23, 2022Inventors: Thomas Milner, Robert G. W. Brown, Nitesh Katta, Matthew Brenner, James Tunnell, Mohadeseh Hashemidehagi, Raj Nihalani, Wangcun Jia
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Patent number: 9057926Abstract: An array of pixel assemblies emitting multiple wavelengths in a direction and a method therefor, the array comprising: a plurality of pixel assemblies, each respective pixel assembly having a respective pixel area, the respective pixel assembly formed by: one or more waveguides made from electro-optically active material; a plurality of different wavelength emitters, the different wavelength emitters disposed at one or more of the ends of the respective one or more waveguides to propagate their respective wavelengths therealong and capable of being switched; and a one switch disposed to cause when activated, a shifting of the wavelengths propagating in the one or more waveguides of the pixel assembly by substantially 90 degrees to be emitted through the respective pixel area; and a backplane with an electronic circuit for switching the plurality of switches and the emitters.Type: GrantFiled: January 27, 2012Date of Patent: June 16, 2015Assignee: Rockwell Collins, Inc.Inventor: Robert G. W. Brown
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Patent number: 8673074Abstract: A method of growing planar non-polar m-plane or semi-polar III-Nitride material, such as an m-plane gallium nitride (GaN) epitaxial layer, wherein the III-Nitride material is grown on a suitable substrate, such as an m-plane sapphire substrate, using hydride vapor phase epitaxy (HVPE). The method includes in-situ pretreatment of the substrate at elevated temperatures in an atmosphere of ammonia and argon, growing an intermediate layer such as an aluminum nitride (AlN) or aluminum-gallium nitride (AlGaN) on the annealed substrate, and growing the non-polar m-plane III-Nitride epitaxial layer on the intermediate layer using HVPE.Type: GrantFiled: July 15, 2009Date of Patent: March 18, 2014Assignee: Ostendo Technologies, Inc.Inventors: Alexander Usikov, Alexander Syrkin, Robert G. W. Brown, Hussein S. El-Ghoroury, Philippe Spiberg, Vladimir Ivantsov, Oleg Kovalenkov, Lisa Shapovalova
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Patent number: 8567960Abstract: Emissive quantum photonic imagers comprised of a spatial array of digitally addressable multicolor pixels. Each pixel is a vertical stack of multiple semiconductor laser diodes, each of which can generate laser light of a different color. Within each multicolor pixel, the light generated from the stack of diodes is emitted perpendicular to the plane of the imager device via a plurality of vertical waveguides that are coupled to the optical confinement regions of each of the multiple laser diodes comprising the imager device. Each of the laser diodes comprising a single pixel is individually addressable, enabling each pixel to simultaneously emit any combination of the colors associated with the laser diodes at any required on/off duty cycle for each color. Each individual multicolor pixel can simultaneously emit the required colors and brightness values by controlling the on/off duty cycles of their respective laser diodes.Type: GrantFiled: September 16, 2009Date of Patent: October 29, 2013Assignee: Ostendo Technologies, Inc.Inventors: Hussein S. El-Ghoroury, Robert G. W. Brown, Dale A. McNeill, Huibert DenBoer, Andrew J. Lanzone
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Patent number: 8243770Abstract: Emissive quantum photonic imagers comprised of a spatial array of digitally addressable multicolor pixels. Each pixel is a vertical stack of multiple semiconductor laser diodes, each of which can generate laser light of a different color. Within each multicolor pixel, the light generated from the stack of diodes is emitted perpendicular to the plane of the imager device via a plurality of vertical waveguides that are coupled to the optical confinement regions of each of the multiple laser diodes comprising the imager device. Each of the laser diodes comprising a single pixel is individually addressable, enabling each pixel to simultaneously emit any combination of the colors associated with the laser diodes at any required on/off duty cycle for each color. Each individual multicolor pixel can simultaneously emit the required colors and brightness values by controlling the on/off duty cycles of their respective laser diodes.Type: GrantFiled: October 21, 2011Date of Patent: August 14, 2012Assignee: Ostendo Technologies, Inc.Inventors: Hussein S. El-Ghoroury, Robert G. W. Brown, Dale A. McNeill, Huibert DenBoer, Andrew J. Lanzone
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Publication number: 20120033113Abstract: Emissive quantum photonic imagers comprised of a spatial array of digitally addressable multicolor pixels. Each pixel is a vertical stack of multiple semiconductor laser diodes, each of which can generate laser light of a different color. Within each multicolor pixel, the light generated from the stack of diodes is emitted perpendicular to the plane of the imager device via a plurality of vertical waveguides that are coupled to the optical confinement regions of each of the multiple laser diodes comprising the imager device. Each of the laser diodes comprising a single pixel is individually addressable, enabling each pixel to simultaneously emit any combination of the colors associated with the laser diodes at any required on/off duty cycle for each color. Each individual multicolor pixel can simultaneously emit the required colors and brightness values by controlling the on/off duty cycles of their respective laser diodes.Type: ApplicationFiled: October 21, 2011Publication date: February 9, 2012Applicant: OSTENDO TECHNOLOGIES, INC.Inventors: Hussein S. El-Ghoroury, Robert G.W. Brown, Dale A. McNeill, Huibert DenBoer, Andrew J. Lanzone
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Patent number: 8098265Abstract: This invention describes an apparatus, methods and a system for high speed hierarchical multiplexing the native color primaries of SSL-based display systems in order to improve color quality and stability as well as brightness and the efficiency of the display system.Type: GrantFiled: October 10, 2008Date of Patent: January 17, 2012Assignee: Ostendo Technologies, Inc.Inventors: Hussein S. El-Ghoroury, Aditi Majumder, Robert G. W. Brown, Andrew J. Lanzone
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Patent number: 8049231Abstract: Emissive quantum photonic imagers comprised of a spatial array of digitally addressable multicolor pixels. Each pixel is a vertical stack of multiple semiconductor laser diodes, each of which can generate laser light of a different color. Within each multicolor pixel, the light generated from the stack of diodes is emitted perpendicular to the plane of the imager device via a plurality of vertical waveguides that are coupled to the optical confinement regions of each of the multiple laser diodes comprising the imager device. Each of the laser diodes comprising a single pixel is individually addressable, enabling each pixel to simultaneously emit any combination of the colors associated with the laser diodes at any required on/off duty cycle for each color. Each individual multicolor pixel can simultaneously emit the required colors and brightness values by controlling the on/off duty cycles of their respective laser diodes.Type: GrantFiled: March 19, 2010Date of Patent: November 1, 2011Assignee: Ostendo Technologies, Inc.Inventors: Hussein S. El-Ghoroury, Robert G. W. Brown, Dale A. McNeill, Huibert DenBoer, Andrew J. Lanzone
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Patent number: 7829902Abstract: Emissive quantum photonic imagers comprised of a spatial array of digitally addressable multicolor pixels. Each pixel is a vertical stack of multiple semiconductor laser diodes, each of which can generate laser light of a different color. Within each multicolor pixel, the light generated from the stack of diodes is emitted perpendicular to the plane of the imager device via a plurality of vertical waveguides that are coupled to the optical confinement regions of each of the multiple laser diodes comprising the imager device. Each of the laser diodes comprising a single pixel is individually addressable, enabling each pixel to simultaneously emit any combination of the colors associated with the laser diodes at any required on/off duty cycle for each color. Each individual multicolor pixel can simultaneously emit the required colors and brightness values by controlling the on/off duty cycles of their respective laser diodes.Type: GrantFiled: June 17, 2009Date of Patent: November 9, 2010Assignee: Ostendo Technologies, Inc.Inventors: Hussein S. El-Ghoroury, Robert G. W. Brown, Dale A. McNeill, Huibert DenBoer, Andrew J. Lanzone
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Publication number: 20100220042Abstract: Emissive quantum photonic imagers comprised of a spatial array of digitally addressable multicolor pixels. Each pixel is a vertical stack of multiple semiconductor laser diodes, each of which can generate laser light of a different color. Within each multicolor pixel, the light generated from the stack of diodes is emitted perpendicular to the plane of the imager device via a plurality of vertical waveguides that are coupled to the optical confinement regions of each of the multiple laser diodes comprising the imager device. Each of the laser diodes comprising a single pixel is individually addressable, enabling each pixel to simultaneously emit any combination of the colors associated with the laser diodes at any required on/off duty cycle for each color. Each individual multicolor pixel can simultaneously emit the required colors and brightness values by controlling the on/off duty cycles of their respective laser diodes.Type: ApplicationFiled: March 19, 2010Publication date: September 2, 2010Applicant: OSTENDO TECHNOLOGIES, INC.Inventors: Hussein S. El-Ghoroury, Robert G.W. Brown, Dale A. McNeill, Huibert DenBoer, Andrew J. Lanzone
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Patent number: 7767479Abstract: Emissive quantum photonic imagers comprised of a spatial array of digitally addressable multicolor pixels. Each pixel is a vertical stack of multiple semiconductor laser diodes, each of which can generate laser light of a different color. Within each multicolor pixel, the light generated from the stack of diodes is emitted perpendicular to the plane of the imager device via a plurality of vertical waveguides that are coupled to the optical confinement regions of each of the multiple laser diodes comprising the imager device. Each of the laser diodes comprising a single pixel is individually addressable, enabling each pixel to simultaneously emit any combination of the colors associated with the laser diodes at any required on/off duty cycle for each color. Each individual multicolor pixel can simultaneously emit the required colors and brightness values by controlling the on/off duty cycles of their respective laser diodes.Type: GrantFiled: September 16, 2009Date of Patent: August 3, 2010Assignee: Ostendo Technologies, Inc.Inventors: Hussein S. El-Ghoroury, Robert G. W. Brown, Dale A. McNeill, Huibert DenBoer, Andrew J. Lanzone
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Publication number: 20100091050Abstract: This invention describes an apparatus, methods and a system for high speed hierarchical multiplexing the native color primaries of SSL-based display systems in order to improve color quality and stability as well as brightness and the efficiency of the display system.Type: ApplicationFiled: October 10, 2008Publication date: April 15, 2010Applicant: OSTENDO TECHNOLOGIES, INC.Inventors: Hussein S. El-Ghoroury, Aditi Majumder, Robert G. W. Brown, Andrew J. Lanzone
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Publication number: 20100066921Abstract: Emissive quantum photonic imagers comprised of a spatial array of digitally addressable multicolor pixels. Each pixel is a vertical stack of multiple semiconductor laser diodes, each of which can generate laser light of a different color. Within each multicolor pixel, the light generated from the stack of diodes is emitted perpendicular to the plane of the imager device via a plurality of vertical waveguides that are coupled to the optical confinement regions of each of the multiple laser diodes comprising the imager device. Each of the laser diodes comprising a single pixel is individually addressable, enabling each pixel to simultaneously emit any combination of the colors associated with the laser diodes at any required on/off duty cycle for each color. Each individual multicolor pixel can simultaneously emit the required colors and brightness values by controlling the on/off duty cycles of their respective laser diodes.Type: ApplicationFiled: September 16, 2009Publication date: March 18, 2010Applicant: OSTENDO TECHNOLOGIES, INC.Inventors: Hussein S. El-Ghoroury, Robert G.W. Brown, Dale A. McNeill, Huibert DenBoer, Andrew J. Lanzone
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Publication number: 20100012948Abstract: A method of growing planar non-polar m-plane or semi-polar III-Nitride material, such as an m-plane gallium nitride (GaN) epitaxial layer, wherein the III-Nitride material is grown on a suitable substrate, such as an m-plane Sapphire substrate, using hydride vapor phase epitaxy (HVPE). The method includes in-situ pretreatment of the substrate at elevated temperatures in the ambient of ammonia and argon, growing an intermediate layer such as an aluminum nitride (AlN) or aluminum-gallium nitride (AlGaN) on the annealed substrate, and growing the non-polar m-plane III-Nitride epitaxial layer on the intermediate layer using HVPE.Type: ApplicationFiled: July 15, 2009Publication date: January 21, 2010Applicant: OSTENDO TECHNOLOGIES, INC.Inventors: Alexander Usikov, Alexander Syrkin, Robert G.W. Brown, Hussein S. El-Ghoroury, Philippe Spiberg, Vladimir Ivantsov, Oleg Kovalenkov, Lisa Shapovalova
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Publication number: 20100003777Abstract: Emissive quantum photonic imagers comprised of a spatial array of digitally addressable multicolor pixels. Each pixel is a vertical stack of multiple semiconductor laser diodes, each of which can generate laser light of a different color. Within each multicolor pixel, the light generated from the stack of diodes is emitted perpendicular to the plane of the imager device via a plurality of vertical waveguides that are coupled to the optical confinement regions of each of the multiple laser diodes comprising the imager device. Each of the laser diodes comprising a single pixel is individually addressable, enabling each pixel to simultaneously emit any combination of the colors associated with the laser diodes at any required on/off duty cycle for each color. Each individual multicolor pixel can simultaneously emit the required colors and brightness values by controlling the on/off duty cycles of their respective laser diodes.Type: ApplicationFiled: September 16, 2009Publication date: January 7, 2010Applicant: OSTENDO TECHNOLOGIES, INC.Inventors: Hussein S. El-Ghoroury, Robert G.W. Brown, Dale A. McNeill, Huibert DenBoer, Andrew J. Lanzone
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Patent number: 7623560Abstract: Emissive quantum photonic imagers comprised of a spatial array of digitally addressable multicolor pixels. Each pixel is a vertical stack of multiple semiconductor laser diodes, each of which can generate laser light of a different color. Within each multicolor pixel, the light generated from the stack of diodes is emitted perpendicular to the plane of the imager device via a plurality of vertical waveguides that are coupled to the optical confinement regions of each of the multiple laser diodes comprising the imager device. Each of the laser diodes comprising a single pixel is individually addressable, enabling each pixel to simultaneously emit any combination of the colors associated with the laser diodes at any required on/off duty cycle for each color. Each individual multicolor pixel can simultaneously emit the required colors and brightness values by controlling the on/off duty cycles of their respective laser diodes.Type: GrantFiled: December 26, 2007Date of Patent: November 24, 2009Assignee: Ostendo Technologies, Inc.Inventors: Hussein S. El-Ghoroury, Robert G. W. Brown, Dale A. McNeill, Huibert DenBoer, Andrew J. Lanzone
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Publication number: 20090278998Abstract: Emissive quantum photonic imagers comprised of a spatial array of digitally addressable multicolor pixels. Each pixel is a vertical stack of multiple semiconductor laser diodes, each of which can generate laser light of a different color. Within each multicolor pixel, the light generated from the stack of diodes is emitted perpendicular to the plane of the imager device via a plurality of vertical waveguides that are coupled to the optical confinement regions of each of the multiple laser diodes comprising the imager device. Each of the laser diodes comprising a single pixel is individually addressable, enabling each pixel to simultaneously emit any combination of the colors associated with the laser diodes at any required on/off duty cycle for each color. Each individual multicolor pixel can simultaneously emit the required colors and brightness values by controlling the on/off duty cycles of their respective laser diodes.Type: ApplicationFiled: June 17, 2009Publication date: November 12, 2009Applicant: OSTENDO TECHNOLOGIES, INC.Inventors: Hussein S. El-Ghoroury, Robert G.W. Brown, Dale A. McNeill, Huibert DenBoer, Andrew J. Lanzone
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Publication number: 20090086170Abstract: Emissive quantum photonic imagers comprised of a spatial array of digitally addressable multicolor pixels. Each pixel is a vertical stack of multiple semiconductor laser diodes, each of which can generate laser light of a different color. Within each multicolor pixel, the light generated from the stack of diodes is emitted perpendicular to the plane of the imager device via a plurality of vertical waveguides that are coupled to the optical confinement regions of each of the multiple laser diodes comprising the imager device. Each of the laser diodes comprising a single pixel is individually addressable, enabling each pixel to simultaneously emit any combination of the colors associated with the laser diodes at any required on/off duty cycle for each color. Each individual multicolor pixel can simultaneously emit the required colors and brightness values by controlling the on/off duty cycles of their respective laser diodes.Type: ApplicationFiled: December 26, 2007Publication date: April 2, 2009Applicant: OSTENDO TECHNOLOGIES, INC.Inventors: Hussein S. El-Ghoroury, Robert G.W. Brown, Dale A. McNeill, Huibert DenBoer, Andrew J. Lanzone
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Patent number: 5583351Abstract: A color semiconductor display device in which optoelectronic elements capable of emitting/absorbing light of different predetermined wavelengths in the visible wavelength range (e.g. red, green, blue) are formed on a common substrate and comprise similar alloy compositions which are lattice matched to the substrate material. The alloy is preferably a III-V nitride alloy lattice matched to Si or GaP substrate material. In the disclosed embodiment, a color display device comprises a silicon or GaP substrate with an array of pixels, each being formed by a group of three (red, green, blue) color sub-pixels provided on the substrate. The pixels are formed of InAINSb alloy, with a quantum well regions of InNSb and barrier regions of AINSb, or are formed of AIGaAsSbN alloy, with quantum well regions of GaAsN and barrier regions of AINSb. Tuning of the wavelength emission/absorption characteristics of the sub-pixels is by doping of the quantum well material with aluminum and/or by quantum confinement.Type: GrantFiled: April 21, 1994Date of Patent: December 10, 1996Assignee: Sharp Kabushiki KaishaInventors: Robert G. W. Brown, Stephen P. Najda