Patents by Inventor Jose Camara

Jose Camara 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).

  • Patent number: 10857239
    Abstract: The invention relates to the use of HNRNPC-expressing vectors for preventing and/or treating a tauopathy, such as Alzheimer's disease. The invention relates to methods for detecting a risk of developing a tauopathy such Alzheimer's disease in a patient, comprising the step of detecting the level of HNRNPC in a biological sample obtained from said patient.
    Type: Grant
    Filed: June 10, 2016
    Date of Patent: December 8, 2020
    Assignees: INSERM (INSTITUT NATIONAL DE LA SANTÉ ET DE LA RECHERCHE MÉDICALE), CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE—CNRS, UNIVERSITE PIERRE ET MARIE CURIE (PARIS 6)
    Inventors: Thierry Leveillard, Jose-Alain Sahel, Hawa Camara
  • Publication number: 20200335933
    Abstract: Apparatus and methods for producing ultrashort optical pulses are described. A high-power, solid-state, passively mode-locked laser can be manufactured in a compact module that can be incorporated into a portable instrument. The mode-locked laser can produce sub-50-ps optical pulses at a repetition rates between 200 MHz and 50 MHz, rates suitable for massively parallel data-acquisition. The optical pulses can be used to generate a reference clock signal for synchronizing data-acquisition and signal-processing electronics of the portable instrument.
    Type: Application
    Filed: June 30, 2020
    Publication date: October 22, 2020
    Applicant: Quantum-Si Incorporated
    Inventors: Jonathan M. Rothberg, Jason W. Sickler, Lawrence C. West, Faisal R. Ahmad, Paul E. Glenn, Jack Jewell, John Glenn, Jose Camara, Jeremy Christopher Jordan, Todd Rearick, Farshid Ghasemi, Jonathan C. Schultz, Keith G. Fife, Benjamin Cipriany
  • Patent number: 10741990
    Abstract: Apparatus and methods for producing ultrashort optical pulses are described. A high-power, solid-state, passively mode-locked laser can be manufactured in a compact module that can be incorporated into a portable instrument. The mode-locked laser can produce sub-50-ps optical pulses at a repetition rates between 200 MHz and 50 MHz, rates suitable for massively parallel data-acquisition. The optical pulses can be used to generate a reference clock signal for synchronizing data-acquisition and signal-processing electronics of the portable instrument.
    Type: Grant
    Filed: March 25, 2019
    Date of Patent: August 11, 2020
    Assignee: Quantum-Si Incorporated
    Inventors: Jonathan M. Rothberg, Jason W. Sickler, Lawrence C. West, Faisal R. Ahmad, Paul E. Glenn, Jack Jewell, John Glenn, Jose Camara, Jeremy Christopher Jordan, Todd Rearick, Farshid Ghasemi, Jonathan C. Schultz, Keith G. Fife, Benjamin Cipriany
  • Publication number: 20200220317
    Abstract: Apparatus and methods for producing ultrashort optical pulses are described. A high-power, solid-state, passively mode-locked laser can be manufactured in a compact module that can be incorporated into a portable instrument. The mode-locked laser can produce sub-50-ps optical pulses at a repetition rates between 200 MHz and 50 MHz, rates suitable for massively parallel data-acquisition. The optical pulses can be used to generate a reference clock signal for synchronizing data-acquisition and signal-processing electronics of the portable instrument.
    Type: Application
    Filed: March 25, 2019
    Publication date: July 9, 2020
    Applicant: Quantum-Si Incorporated
    Inventors: Jonathan M. Rothberg, Jason W. Sickler, Lawrence C. West, Faisal R. Ahmad, Paul E. Glenn, Jack Jewell, John Glenn, Jose Camara, Jeremy Christopher Jordan, Todd Rearick, Farshid Ghasemi, Jonathan C. Schultz, Keith G. Fife, Benjamin Cipriany
  • Publication number: 20200188697
    Abstract: In some aspects, a device wearable by or attached to or implanted within a person includes a sensor configured to detect a signal from the brain of the person and a transducer configured to apply to the brain an acoustic signal.
    Type: Application
    Filed: December 13, 2019
    Publication date: June 18, 2020
    Applicant: EpilepsyCo Inc.
    Inventors: Eric Kabrams, Jose Camara, Owen Kaye-Kauderer, Alexander B. Leffell, Jonathan M. Rothberg, Maurizio Arienzo, Kamyar Firouzi
  • Publication number: 20200188698
    Abstract: In some aspects, a device wearable by a person includes a sensor configured to detect a signal from the brain of the person and a transducer configured to apply to the brain an ultrasound signal. The ultrasound signal has a low power density and is substantially non-destructive with respect to tissue when applied to the brain.
    Type: Application
    Filed: December 13, 2019
    Publication date: June 18, 2020
    Applicant: EpilepsyCo Inc.
    Inventors: Eric Kabrams, Jose Camara, Owen Kaye-Kauderer, Alexander B. Leffell, Jonathan M. Rothberg, Maurizio Arienzo, Kamyar Firouzi
  • Publication number: 20200194120
    Abstract: In some aspects, a device includes a sensor configured to detect a signal from the brain of the person and a first processor in communication with the sensor. The first processor is programmed to identify health condition and, based on the identified health condition, provide data from the signal to a second processor outside the device to corroborate or contradict the identified health condition.
    Type: Application
    Filed: December 13, 2019
    Publication date: June 18, 2020
    Applicant: EpilepsyCo Inc.
    Inventors: Eric Kabrams, Jose Camara, Owen Kaye-Kauderer, Alexander B. Leffell, Jonathan M. Rothberg, Mohammad Moghadamfalahi
  • Publication number: 20200188700
    Abstract: In some aspects, a device wearable by or attached to or implanted within a person includes a sensor configured to detect an electroencephalogram (EEG) signal from the brain of the person and a transducer configured to apply to the brain a low power, substantially non-destructive ultrasound signal.
    Type: Application
    Filed: December 13, 2019
    Publication date: June 18, 2020
    Applicant: EpilepsyCo Inc.
    Inventors: Eric Kabrams, Jose Camara, Owen Kaye-Kauderer, Alexander B. Leffell, Jonathan M. Rothberg, Kamyar Firouzi
  • Publication number: 20200158640
    Abstract: Compact optical sources and methods for producing short and ultrashort optical pulses are described. A semiconductor laser or LED may be driven with a bipolar waveform to generate optical pulses with FWHM durations as short as approximately 85 ps having suppressed tail emission. The pulsed optical sources may be used for fluorescent lifetime analysis of biological samples and time-of-flight imaging, among other applications.
    Type: Application
    Filed: January 23, 2020
    Publication date: May 21, 2020
    Applicant: Quantum-Si Incorporated
    Inventors: Jonathan M. Rothberg, Jason W. Sickler, Lawrence C. West, Faisal R. Ahmad, Brendan Huang, Paul E. Glenn, Jonathan C. Schultz, Jose Camara
  • Patent number: 10605730
    Abstract: Compact optical sources and methods for producing short and ultrashort optical pulses are described. A semiconductor laser or LED may be driven with a bipolar waveform to generate optical pulses with FWHM durations as short as approximately 85 ps having suppressed tail emission. The pulsed optical sources may be used for fluorescent lifetime analysis of biological samples and time-of-flight imaging, among other applications.
    Type: Grant
    Filed: May 20, 2016
    Date of Patent: March 31, 2020
    Assignee: Quantum-Si Incorporated
    Inventors: Jonathan M. Rothberg, Jason W. Sickler, Lawrence C. West, Faisal R. Ahmad, Brendan Huang, Paul E. Glenn, Jonathan C. Schultz, Jose Camara
  • Publication number: 20190249240
    Abstract: Apparatus and methods for producing ultrashort optical pulses are described. A high-power, solid-state, passively mode-locked laser can be manufactured in a compact module that can be incorporated into a portable instrument for biological or chemical analyses. The pulsed laser may produce sub-100-ps optical pulses at a repetition rate commensurate with electronic data-acquisition rates. The optical pulses may excite samples in reaction chambers of the instrument, and be used to generate a reference clock for operating signal-acquisition and signal-processing electronics of the instrument.
    Type: Application
    Filed: February 15, 2019
    Publication date: August 15, 2019
    Applicant: Quantum-Si Incorporated
    Inventors: Jonathan M. Rothberg, Jason W. Sickler, Lawrence C. West, Faisal R. Ahmad, Paul E. Glenn, Jack Jewell, John Glenn, Jose Camara, Jeremy Christopher Jordan, Todd Rearick, Farshid Ghasemi, Jonathan C. Schultz, Keith G. Fife
  • Patent number: 10283928
    Abstract: Apparatus and methods for producing ultrashort optical pulses are described. A high-power, solid-state, passively mode-locked laser can be manufactured in a compact module that can be incorporated into a portable instrument. The mode-locked laser can produce sub-50-ps optical pulses at a repetition rates between 200 MHz and 50 MHz, rates suitable for massively parallel data-acquisition. The optical pulses can be used to generate a reference clock signal for synchronizing data-acquisition and signal-processing electronics of the portable instrument.
    Type: Grant
    Filed: December 15, 2017
    Date of Patent: May 7, 2019
    Assignee: Quantum-Si Incorporated
    Inventors: Jonathan M. Rothberg, Jason W. Sickler, Lawrence C. West, Faisal R. Ahmad, Paul E. Glenn, Jack Jewell, John Glenn, Jose Camara, Jeremy Christopher Jordan, Todd Rearick, Farshid Ghasemi, Jonathan C. Schultz, Keith G. Fife, Benjamin Cipriany
  • Patent number: 10246742
    Abstract: Apparatus and methods for producing ultrashort optical pulses are described. A high-power, solid-state, passively mode-locked laser can be manufactured in a compact module that can be incorporated into a portable instrument for biological or chemical analyses. The pulsed laser may produce sub-100-ps optical pulses at a repetition rate commensurate with electronic data-acquisition rates. The optical pulses may excite samples in reaction chambers of the instrument, and be used to generate a reference clock for operating signal-acquisition and signal-processing electronics of the instrument.
    Type: Grant
    Filed: May 20, 2016
    Date of Patent: April 2, 2019
    Assignee: Quantum-Si Incorporated
    Inventors: Jonathan M. Rothberg, Jason W. Sickler, Lawrence C. West, Faisal R. Ahmad, Paul E. Glenn, Jack Jewell, John Glenn, Jose Camara, Jeremy Christopher Jordan, Todd Rearick, Farshid Ghasemi, Jonathan C. Schultz, Keith G. Fife
  • Publication number: 20180175582
    Abstract: Apparatus and methods for producing ultrashort optical pulses are described. A high-power, solid-state, passively mode-locked laser can be manufactured in a compact module that can be incorporated into a portable instrument. The mode-locked laser can produce sub-50-ps optical pulses at a repetition rates between 200 MHz and 50 MHz, rates suitable for massively parallel data-acquisition. The optical pulses can be used to generate a reference clock signal for synchronizing data-acquisition and signal-processing electronics of the portable instrument.
    Type: Application
    Filed: December 15, 2017
    Publication date: June 21, 2018
    Inventors: Jonathan M. Rothberg, Jason W. Sickler, Lawrence C. West, Faisal R. Ahmad, Paul E. Glenn, Jack Jewell, John Glenn, Jose Camara, Jeremy Christopher Jordan, Todd Rearick, Farshid Ghasemi, Jonathan C. Schultz, Keith G. Fife, Benjamin Cipriany
  • Patent number: 9617594
    Abstract: Apparatus and methods for producing ultrashort optical pulses are described. A high-power, solid-state, passively mode-locked laser can be manufactured in a compact module that can be incorporated into a portable instrument for biological or chemical analyses. The pulsed laser may produce sub-100-ps optical pulses at a repetition rate commensurate with electronic data-acquisition rates. The optical pulses may excite samples in reaction chambers of the instrument, and be used to generate a reference clock for operating signal-acquisition and signal-processing electronics of the instrument.
    Type: Grant
    Filed: September 2, 2016
    Date of Patent: April 11, 2017
    Assignee: Quantum-Si Incorporated
    Inventors: Jonathan M. Rothberg, Jason W. Sickler, Lawrence C. West, Faisal R. Ahmad, Paul E. Glenn, Jack Jewell, John Glenn, Jose Camara, Jeremy Christopher Jordan, Todd Rearick, Farshid Ghasemi, Jonathan C. Schultz, Keith G. Fife
  • Publication number: 20160369332
    Abstract: Apparatus and methods for producing ultrashort optical pulses are described. A high-power, solid-state, passively mode-locked laser can be manufactured in a compact module that can be incorporated into a portable instrument for biological or chemical analyses. The pulsed laser may produce sub-100-ps optical pulses at a repetition rate commensurate with electronic data-acquisition rates. The optical pulses may excite samples in reaction chambers of the instrument, and be used to generate a reference clock for operating signal-acquisition and signal-processing electronics of the instrument.
    Type: Application
    Filed: September 2, 2016
    Publication date: December 22, 2016
    Applicant: Quantum-Si Incorporated
    Inventors: Jonathan M. Rothberg, Jason W. Sickler, Lawrence C. West, Faisal R. Ahmad, Paul E. Glenn, Jack Jewell, John Glenn, Jose Camara, Jeremy Christopher Jordan, Todd Rearick, Farshid Ghasemi, Jonathan C. Schultz, Keith G. Fife
  • Publication number: 20160341664
    Abstract: Compact optical sources and methods for producing short and ultrashort optical pulses are described. A semiconductor laser or LED may be driven with a bipolar waveform to generate optical pulses with FWHM durations as short as approximately 85 ps having suppressed tail emission. The pulsed optical sources may be used for fluorescent lifetime analysis of biological samples and time-of-flight imaging, among other applications.
    Type: Application
    Filed: May 20, 2016
    Publication date: November 24, 2016
    Applicant: Quantum-Si Incorporated
    Inventors: Jonathan M. Rothberg, Jason W. Sickler, Lawrence C. West, Faisal Ahmad, Brendan Huang, Paul E. Glenn, Jonathan C. Schultz, Jose Camara
  • Publication number: 20160344156
    Abstract: Apparatus and methods for producing ultrashort optical pulses are described. A high-power, solid-state, passively mode-locked laser can be manufactured in a compact module that can be incorporated into a portable instrument for biological or chemical analyses. The pulsed laser may produce sub-100-ps optical pulses at a repetition rate commensurate with electronic data-acquisition rates. The optical pulses may excite samples in reaction chambers of the instrument, and be used to generate a reference clock for operating signal-acquisition and signal-processing electronics of the instrument.
    Type: Application
    Filed: May 20, 2016
    Publication date: November 24, 2016
    Applicant: Quantum-Si Incorporated
    Inventors: Jonathan M. Rothberg, Jason W. Sickler, Lawrence C. West, Faisal Ahmad, Paul E. Glenn, Jack Jewell, John Glenn, Jose Camara, Jeremy Christopher Jordan, Todd Rearick, Farshid Ghasemi, Jonathan C. Schultz, Keith G. Fife
  • Patent number: 9491411
    Abstract: A control unit of an electronic component mounting apparatus controls a component imaging unit so as to move an electronic component that is held by the holding unit, when the holding unit is moved in a direction, which is oblique to a conveyance direction of a substrate and is close to the substrate, by a movement mechanism unit.
    Type: Grant
    Filed: July 25, 2013
    Date of Patent: November 8, 2016
    Assignee: PANASONIC INTELLECTUAL PROPERTY MANAGEMENT CO., LTD.
    Inventors: Eiichi Hachiya, Takashi Nakamura, David L. Kelly, Jose Camara
  • Patent number: 9332230
    Abstract: A component imaging unit of an electronic component mounting apparatus has three area cameras, and each of visual fields are common to each other regardless of the area cameras. When the imaging form of the component imaging unit is set to a first mode, a component recognition unit recognizes the electronic components held by the holding unit, based on an image imaged by one area camera. Meanwhile, when the imaging form is set to a second mode, in the component imaging unit, the component recognition unit recognizes the electronic component held by the holding unit, based on each of images, each of which is imaged by three area cameras.
    Type: Grant
    Filed: July 25, 2013
    Date of Patent: May 3, 2016
    Assignee: PANASONIC INTELLECTUAL PROPERTY MANAGEMENT CO., LTD.
    Inventors: Eiichi Hachiya, Yuki Minamide, Eugene W. Coleman, Jr., Jose Camara