Patents by Inventor James Carriere
James Carriere 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: 10502688Abstract: Provided are methods and systems for identification and analysis of materials and molecular structures. An apparatus for identification and analysis of materials and molecular structures may include a laser. The laser may, in turn, include an amplified spontaneous emission-suppressed single-frequency laser excitation source. The apparatus may further comprise a plurality of filters. The plurality of filters may include reflective volume holographic grating blocking filters. The apparatus may also comprise an optical unit and an optical spectrometer. The optical unit may be configured to deliver excitation energy to a sample substance and capture Raman signal scattering from the sample substance. The optical spectrometer may be disposed in a path of the Raman signal and configured to measure a spectrum of the Raman signal and generate a detection signal. Finally, the apparatus may comprise a processing unit configured to analyze the spectrum.Type: GrantFiled: March 20, 2017Date of Patent: December 10, 2019Assignee: Ondax, Inc.Inventors: James Carriere, Lawrence Ho, Frank Havermeyer, Eric Maye, Randy Heyler
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Patent number: 9759521Abstract: A firearm training apparatus and method provides simulated weapon realism that places higher priority to shot placement by using a culminated laser beam with specific target areas to achieve marksmanship accuracy. Trainee shooters can visually observe hits by an LED in the target area and hear an alarm sound when another trainee is hit. Stress and reaction to stress is achieved through the use of a TENS (transcutaneous electrical nerve stimulation) units in vests worn by the trainees. Greater realism is achieved by eliminating special safety equipment required with projectile systems, and focus on weapon accuracy and firing characteristics.Type: GrantFiled: August 7, 2015Date of Patent: September 12, 2017Assignee: Force Training Solutions, Inc.Inventor: James Carriere
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Publication number: 20170191939Abstract: Provided are methods and systems for identification and analysis of materials and molecular structures. An apparatus for identification and analysis of materials and molecular structures may include a laser. The laser may, in turn, include an amplified spontaneous emission-suppressed single-frequency laser excitation source. The apparatus may further comprise a plurality of filters. The plurality of filters may include reflective volume holographic grating blocking filters. The apparatus may also comprise an optical unit and an optical spectrometer. The optical unit may be configured to deliver excitation energy to a sample substance and capture Raman signal scattering from the sample substance. The optical spectrometer may be disposed in a path of the Raman signal and configured to measure a spectrum of the Raman signal and generate a detection signal. Finally, the apparatus may comprise a processing unit configured to analyze the spectrum.Type: ApplicationFiled: March 20, 2017Publication date: July 6, 2017Inventors: James Carriere, Lawrence Ho, Frank Havermeyer, Eric Maye, Randy Heyler
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Publication number: 20170082489Abstract: Systems and methods are provided herein. An exemplary system may include a laser source, the laser source having a laser center wavelength; at least one narrowband optical element receiving light emitted by the laser, the narrowband optical element having a filter center wavelength, the narrowband optical element being arranged such that the filter center wavelength is initially spectrally aligned with the laser center wavelength, the filter center wavelength changing in response to a temperature change such that the filter center wavelength is not substantially aligned with the laser center wavelength; and a passive adjustment mechanism coupled to the narrowband optical element, the passive adjustment mechanism including an actuator, the actuator moving in response to the temperature change, the actuator motion rotating the narrowband optical element, the rotation compensating for the temperature change such that the filter center wavelength and laser center wavelength remain spectrally aligned.Type: ApplicationFiled: September 21, 2015Publication date: March 23, 2017Inventors: Lawrence Ho, Frank Havermeyer, Christophe Moser, James Carriere, Eric Maye, Randy Heyler
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Patent number: 9599565Abstract: Provided are methods and systems for identification and analysis of materials and molecular structures. An apparatus for identification and analysis of materials and molecular structures may include a laser. The laser may, in turn, include an amplified spontaneous emission-suppressed single-frequency laser excitation source. The apparatus may further comprise a plurality of filters. The plurality of filters may include reflective volume holographic grating blocking filters. The apparatus may also comprise an optical unit and an optical spectrometer. The optical unit may be configured to deliver excitation energy to a sample substance and capture Raman signal scattering from the sample substance. The optical spectrometer may be disposed in a path of the Raman signal and configured to measure a spectrum of the Raman signal and generate a detection signal. Finally, the apparatus may comprise a processing unit configured to analyze the spectrum.Type: GrantFiled: October 2, 2013Date of Patent: March 21, 2017Assignee: Ondax, Inc.Inventors: James Carriere, Lawrence Ho, Frank Havermeyer, Eric Maye, Randy Heyler
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Patent number: 9587983Abstract: Systems and methods are provided herein. An exemplary system may include a laser source, the laser source having a laser center wavelength; at least one narrowband optical element receiving light emitted by the laser, the narrowband optical element having a filter center wavelength, the narrowband optical element being arranged such that the filter center wavelength is initially spectrally aligned with the laser center wavelength, the filter center wavelength changing in response to a temperature change such that the filter center wavelength is not substantially aligned with the laser center wavelength; and a passive adjustment mechanism coupled to the narrowband optical element, the passive adjustment mechanism including an actuator, the actuator moving in response to the temperature change, the actuator motion rotating the narrowband optical element, the rotation compensating for the temperature change such that the filter center wavelength and laser center wavelength remain spectrally aligned.Type: GrantFiled: September 21, 2015Date of Patent: March 7, 2017Assignee: Ondax, Inc.Inventors: Lawrence Ho, Frank Havermeyer, Christophe Moser, James Carriere, Eric Maye, Randy Heyler
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Publication number: 20150354922Abstract: A firearm training apparatus and method provides simulated weapon realism that places higher priority to shot placement by using a culminated laser beam with specific target areas to achieve marksmanship accuracy. Trainee shooters can visually observe hits by an LED in the target area and hear an alarm sound when another trainee is hit. Stress and reaction to stress is achieved through the use of a TENS (transcutaneous electrical nerve stimulation) units in vests worn by the trainees. Greater realism is achieved by eliminating special safety equipment required with projectile systems, and focus on weapon accuracy and firing characteristics.Type: ApplicationFiled: August 7, 2015Publication date: December 10, 2015Inventor: James Carriere
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Patent number: 8611026Abstract: An optical device includes a substrate. a non-planar transparent structure on a first surface of the substrate, the non-planar transparent structure being made of a first material, and a molded refractive surface on the first surface of the substrate adjacent the non-planar transparent structure, the molded refractive surface being made of a second material, different from the first material.Type: GrantFiled: March 26, 2009Date of Patent: December 17, 2013Assignee: Digitaloptics CorporationInventors: Hongtao Han, Alan Kathman, Rong Huang, Michael Feldman, Robert D. TeKolste, Jeremy Huddleston, James Carriere, Michael Magoon, Jack Schmidt
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Publication number: 20130309633Abstract: A firearm training apparatus and method provides simulated weapon realism that places higher priority to shot placement by using a culminated laser beam with specific target areas to achieve marksmanship accuracy. Trainee shooters can visually observe hits by an LED in the target area and hear an alarm sound when another trainee is hit. Stress and reaction to stress is achieved through the use of a TENS (transcutaneous electrical nerve stimulation) units in vests worn by the trainees. Greater realism is achieved by eliminating special safety equipment required with projectile systems, and focus on weapon accuracy and firing characteristics.Type: ApplicationFiled: May 15, 2013Publication date: November 21, 2013Applicant: Force Training Solutions, Inc.Inventor: James Carriere
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Publication number: 20100295973Abstract: An optical system (302) has a plurality of optical surfaces (304, 305, 306, 307, 308, 309) configured to provide blurred images of objects located within a selected range of object distances. At least two of the plurality of optical surfaces are configured to contribute to the blurring. An imaging system (300) includes a blurring optical system (302), a sensor (310) which receives light directed through the optical system, and an image processor (320) which selects one or more deblurring functions and applies the deblurring functions to provide a processed image. The processor may apply different deblurring functions to different sets of the raw data representing different portions of the field of view.Type: ApplicationFiled: November 4, 2008Publication date: November 25, 2010Applicant: TESSERA NORTH AMERICA, INC.Inventors: Christopher Aubuchon, James Morris, Gregory Kintz, James Carriere, Michael R. Feldman
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Publication number: 20090290833Abstract: An optical device includes a substrate. a non-planar transparent structure on a first surface of the substrate, the non-planar transparent structure being made of a first material, and a molded refractive surface on the first surface of the substrate adjacent the non-planar transparent structure, the molded refractive surface being made of a second material, different from the first material.Type: ApplicationFiled: March 26, 2009Publication date: November 26, 2009Inventors: Hongtao Han, Alan Kathman, Rong Huang, Michael Feldman, Robert D. TeKOLSTE, Jeremy Huddleston, James Carriere, Michael Magoon, Jack Schmidt