Patents by Inventor Armand R. Tanguay, Jr.
Armand R. Tanguay, Jr. 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: 20130131985Abstract: The system comprises a wearable, electronic image acquisition and processing system (or visual enhancement system) to guide visually impaired individuals through their environment, providing information to the user about nearby objects of interest, potentially dangerous obstacles, their location, and potential paths to their destination.Type: ApplicationFiled: April 11, 2012Publication date: May 23, 2013Inventors: James D. Weiland, Mark S. Humayan, Gerard Medioni, Armand R. Tanguay, JR., Vivek Pradeep, Laurent Itti
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Patent number: 8210680Abstract: An imaging system for examining the interior structure of the eye at high-resolution under ambient light without the need for chemical dilation of the pupil.Type: GrantFiled: April 24, 2009Date of Patent: July 3, 2012Assignees: University of Southern California, Doheny Eye InstituteInventors: Armand R. Tanguay, Jr., Mark S. Humayun
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Patent number: 8197539Abstract: An intraocular camera for retinal prostheses may include an optical imaging system comprising a set of optical elements for forming an image of the external world on an image sensor array, wherein the optical elements and the image sensor array may be enclosed in an implantable biocompatible housing that may employ haptic elements for stabilization within the eye. The set of optical elements may be designed to have a short focal length and to provide adequate resolution images that can be transformed into a set of stimulation signals applied to a pixellated microstimulator array. Transmission of the signals from the intraocular camera to a microstimulator driver circuit may be accomplished either by a wired or wireless communication device. Power and control signals may be provided to the intraocular camera by a wired or wireless communication device, or optically by means of ambient illumination or an optical beam.Type: GrantFiled: May 4, 2007Date of Patent: June 12, 2012Assignee: University of Southern CaliforniaInventors: Patrick J. Nasiatka, Michelle C. Hauer, Noelle R. B. Stiles, Armand R. Tanguay, Jr., Mark S. Humayun
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Patent number: 7774931Abstract: Intraocular retinal prosthesis devices and methods for fabricating the same. A prosthesis device includes a cable region that connects an electrode array region with a power and data management region. The electrode array region includes one or more arrays of exposed electrodes, and the power and data management region includes various power and control elements. The power and data management elements, in one aspect, include an RF coil or coils and circuit arrangements and/or chips configured to provide drive signals to the electrodes via a cable and receive power and signals from the RF coil or coils. Each region includes elements fabricated on or in a single polymer layer during the same fabrication process.Type: GrantFiled: April 28, 2006Date of Patent: August 17, 2010Assignees: California Institute of Technology, University of Southern CaliforniaInventors: Yu-Chong Tai, Damien C. Rodger, Wen Li, Mark Humayun, James D. Weiland, Hossein Ameri, Armand R. Tanguay, Jr.
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Publication number: 20100026957Abstract: An imaging system for examining the interior structure of the eye at high-resolution under ambient light without the need for chemical dilation of the pupil.Type: ApplicationFiled: April 24, 2009Publication date: February 4, 2010Applicants: University of Southern California, Doheny Eye InstituteInventors: Armand R. Tanguay, JR., Mark S. Humayun
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Patent number: 6445470Abstract: Novel apparatus for simultaneous spatial modulation of a set of angularly multiplexed individually coherent but mutually incoherent optical beams is disclosed, comprising means for generating a set of two or more individually coherent beams that have at least one optical wavelength in common, pairwise, and are assured to be mutually incoherent, and means for directing the set of individually coherent but mutually incoherent beams to a spatial modulation means, such that a spatially overlapping group of individually coherent but mutually incoherent beams overlap spatially in at least one region of the spatial modulation means and are angularly multiplexed within the region. Such simultaneous spatial modulation is a key feature, for example, in highly multiplexed photonic interconnection, memory, and display systems with maximum optical throughput efficiency and minimum crosstalk, based on parallel incoherent/coherent double angularly multiplexed holographic recording and readout principles.Type: GrantFiled: August 27, 2000Date of Patent: September 3, 2002Assignee: University of Southern CaliforniaInventors: B. Keith Jenkins, Armand R. Tanguay, Jr.
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Patent number: 6128109Abstract: Apparatus is provided for the readout, and in certain applications the display, of information stored within incoherent/coherent double angularly multiplexed volume holographic optical elements. Such multiplexed volume holographic optical elements are based on parallel incoherent/coherent double angularly multiplexed volume holographic recording and readout principles, and are designed to exhibit maximum optical throughput efficiency and minimum crosstalk. Applications for this novel holographic readout apparatus, when used in conjunction with the aforementioned incoherent/coherent double angularly multiplexed volume holographic optical elements, include photonic interconnections for neural networks, telecommunications switching, and digital computing; optical information processors and optical memories; and optical display systems.Type: GrantFiled: June 23, 1997Date of Patent: October 3, 2000Assignee: University of Southern CaliforniaInventors: B. Keith Jenkins, Armand R. Tanguay, Jr.
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Patent number: 5661577Abstract: Novel multiplexed volume holographic optical elements for the development of highly multiplexed photonic interconnection and holographic memory systems with maximum optical throughput efficiency and minimum crosstalk, based on parallel incoherent/coherent double angularly multiplexed volume holographic recording and readout principles, are disclosed. These principles further provide for arbitrarily weighted and independent interconnections, which are of potential importance in the development of densely interconnected photonic implementations of neural networks, photonic interconnection networks for telecommunications switching and digital computing applications, optical information processors, and optical memories. Utilization of the principles that are key features of this holographic element allows for the single step transfer of all or part of the information stored in a three-dimensional holographic storage device to a second such device in a single exposure step.Type: GrantFiled: May 15, 1995Date of Patent: August 26, 1997Assignee: University of Southern CaliforniaInventors: B. Keith Jenkins, Armand R. Tanguay, Jr.
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Patent number: 5568574Abstract: Computation-intensive applications such as sensor signal processing, sensor fusion, image processing, feature identification, pattern recognition, and early vision place stringent requirements on the computational capacity, size, weight, and power dissipation of modular computational systems intended for both embedded and high performance computer environments. Such ultra high speed, ultra high density computational modules will typically be configured with multiple processor, memory, dedicated sensor, and digital signal processing chips in close-packed multichip modules. The present invention relates to a novel architecture and associated apparatus for the development of highly multiplexed photonic interconnections between pairs of such electronic chips incorporated in vertical stacks within three-dimensional multichip module configurations.Type: GrantFiled: June 12, 1995Date of Patent: October 22, 1996Assignee: University of Southern CaliforniaInventors: Armand R. Tanguay, Jr., B. Keith Jenkins
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Patent number: 5416616Abstract: Novel apparatuses for readout of multiplexed volume holographic optical elements, based on parallel incoherent/coherent double angularly multiplexed holographic recording and readout principles, provide for hologram readout with high optical throughput efficiency and minimal crosstalk. Such holographic element readout apparatuses have applications in photonic interconnections for neural networks, telecommunications switching and digital computing; optical information processors and optical memories; and optical display systems. Embodiments are included that allow incoherent superposition of reconstructed images and simplified parallel readout of the volume holographic optical elements. The apparatuses can read out holographic elements that are either optically or computer generated and that are based on continuous-volume or stratified-volume holographic media.Type: GrantFiled: June 8, 1992Date of Patent: May 16, 1995Assignee: University of Southern CaliforniaInventors: B. Keith Jenkins, Armand R. Tanguay, Jr.
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Patent number: 5339177Abstract: The present invention relates to a novel source array comprising a plurality of sources of optical illumination that are at once both individually coherent and mutually incoherent. A primary application of such a source array is to provide the requisite optical source beams in a novel architecture and associated apparatus for the development of highly multiplexed photonic interconnection networks and holographic optical elements with maximum optical throughput efficiency and minimum interchannel crosstalk, based on parallel incoherent/coherent holographic recording and readout principles that are described herein. In one embodiment, the source array is configured from a plurality of coherent sources of illumination; in a second embodiment, a single source of coherent illumination is expanded to illuminate a phase modulator array, within which each separate phase modulator is driven at a distinct oscillation frequency such that the set of resultant modulated beams exhibits mutual incoherence.Type: GrantFiled: February 13, 1992Date of Patent: August 16, 1994Assignee: University of Southern CaliforniaInventors: B. Keith Jenkins, Armand R. Tanguay, Jr.
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Patent number: 5285308Abstract: The present invention relates to a novel spatial light modulator comprising a plurality of individual pixels that each contain separate detectors, electronic circuitry, and optical modulators. A primary application of such a spatial light modulator is to provide the requisite nonlinear relationship between a plurality of optical beams fanned in to each detector on the one hand, and a plurality of optical beams fanned out from such modulator on the other, on a pixel-by-pixel basis. In one embodiment, the spatial light modulator is configured to differentially amplify the inputs to two separate detectors within each pixel, and to transform iORIGIN OF INVENTIONThe U.S. Government has certain rights in this invention pursuant to Contract No. F49620-87-C0007, awarded by the Department of the Air Force, and to Grant No. AFOSR-89-0466, awarded by the Defense Advanced Research Projects Agency through the Department of the Air Force.Type: GrantFiled: February 13, 1992Date of Patent: February 8, 1994Assignee: University of Southern CaliforniaInventors: B. Keith Jenkins, Armand R. Tanguay, Jr.
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Patent number: 5121231Abstract: The present invention relates to a novel architecture and associated apparatus for the development of highly multiplexed photonic interconnection networks and holographic optical elements with maximum optical throughput efficiency and minimum interchannel crosstalk, based on parallel incoherent/coherent holographic recording and readout principles. This scheme further provides for arbitrarily weighted and independent interconnections, which are of potential importance in the development of neuro-optical computers, as well as photonic interconnection networks and multiplexed holographic optical elements. In addition, the extremely difficult problem of copying the contents of a three-dimensional holographic storage device in one step is soluble by utilization of the architectural principles and specified apparatus that are key features of this invention.Type: GrantFiled: April 6, 1990Date of Patent: June 9, 1992Assignee: University of Southern CaliforniaInventors: B. Keith Jenkins, Armand R. Tanguay, Jr.
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Patent number: 4351589Abstract: Arrangements and methods are described employing input optical intensity to output spatial position mapping, for performing optical computing or logic processing functions. An electro-optical device which receives discrete input optical object beams of different intensity levels and a separate readout optical beam, diffracts portions of the readout optical beam to unique spatial positions in two dimensional space, each portion as a function of the intensity of individual discrete input beams or of combinations of the intensities of the input beams. A spatial filter having discrete apertures at selected ones of the unique spatial positions transmits the selected diffracted optical outputs for implementing logic or computing functions.Type: GrantFiled: April 8, 1980Date of Patent: September 28, 1982Assignee: Hughes Aircraft CompanyInventors: Pierre H. Chavel, Alexander A. Sawchuk, Bernard H. Soffer, Timothy C. Strand, Armand R. Tanguay, Jr.