Patents by Inventor Kate Cooper

Kate Cooper 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: 10971611
    Abstract: A beam detector including a light source, a receiver, and a target, acting in cooperation to detect particles in a monitored area. The target reflects incident light, resulting in reflected light being returned to receiver. The receiver is capable of recording and reporting light intensity at a plurality of points across its field of view. In the preferred form the detector emits a first light beam in a first wavelength band; a second light beam in a second wavelength band; and a third light beam in a third wavelength band, wherein the first and second wavelengths bands are substantially equal and are different to the third wavelength band.
    Type: Grant
    Filed: August 23, 2018
    Date of Patent: April 6, 2021
    Assignee: Honeywell International Inc.
    Inventors: Ronald Knox, Kate Cooper, Kemal Ajay
  • Publication number: 20200271559
    Abstract: A particle detector, e.g. a smoke detector is described. In one form the detector includes a detection chamber and radiation source emitting a single beam of radiation. The detector also includes a radiation receiving system and an imaging system arranged to receive radiation from a common region of interest. Methods and systems for analysing the output of a particle detector are also disclosed.
    Type: Application
    Filed: May 12, 2020
    Publication date: August 27, 2020
    Inventors: Kate Cooper, Ronald Knox
  • Patent number: 10677705
    Abstract: A particle detector, e.g. a smoke detector is described. In one form the detector includes a detection chamber and radiation source emitting a single beam of radiation. The detector also includes a radiation receiving system and an imaging system arranged to receive radiation from a common region of interest. Methods and systems for analysing the output of a particle detector are also disclosed.
    Type: Grant
    Filed: May 31, 2019
    Date of Patent: June 9, 2020
    Assignee: Garrett Thermal Systems Limited
    Inventors: Kate Cooper, Ronald Knox
  • Publication number: 20190285531
    Abstract: A particle detector, e.g. a smoke detector is described. In one form the detector includes a detection chamber and radiation source emitting a single beam of radiation. The detector also includes a radiation receiving system and an imaging system arranged to receive radiation from a common region of interest. Methods and systems for analysing the output of a particle detector are also disclosed.
    Type: Application
    Filed: May 31, 2019
    Publication date: September 19, 2019
    Inventors: Kate Cooper, Ronald Knox
  • Patent number: 10345213
    Abstract: A particle detector, e.g. a smoke detector is described. In one form the detector includes a detection chamber and radiation source emitting a single beam of radiation. The detector also includes a radiation receiving system and an imaging system arranged to receive radiation from a common region of interest. Methods and systems for analyzing the output of a particle detector are also disclosed.
    Type: Grant
    Filed: June 3, 2014
    Date of Patent: July 9, 2019
    Assignee: Garrett Thermal Systems Limited
    Inventors: Kate Cooper, Ronald Knox
  • Patent number: 10309898
    Abstract: A particle detection system including; at least one light source adapted to illuminate a volume being monitored at at least two wavelengths; a receiver having a field of view and being adapted to receive light from at least one light source after said light has traversed the volume being monitored and being adapted to generate signals indicative of the intensity of light received at regions within the field of view of the receiver; a processor associated with the receiver adapted to process the signals generated by the receiver to correlate light received at at least two wavelengths in corresponding regions within the field of view of the receiver and generate an output indicative of the relative level of light received at the two wavelengths.
    Type: Grant
    Filed: March 10, 2017
    Date of Patent: June 4, 2019
    Assignee: Garrett Thermal Systems Limited
    Inventors: Ronald Knox, Kate Cooper, Kemal Ajay
  • Patent number: 10161837
    Abstract: A method of particle detection in an aspirated particle detection system having a sampling pipe network and a particle detector. The method includes drawing sample air to the particle detector through the air sampling network; analyzing the sample air with the particle detector; entering an amplification phase, in the event that a concentration of particles in the sample air greater than a predetermined threshold is detected, to create a plurality of sample air packets in the sampling pipe, wherein each sample air packet corresponds to a sampling inlet and includes an amplified concentration of air drawn from the corresponding sampling inlet; transporting the sample air including the plurality of sample air packets through the sampling pipe to the particle detector; and determining through which sampling inlet any particles entered the particle detection system.
    Type: Grant
    Filed: October 16, 2014
    Date of Patent: December 25, 2018
    Assignees: Xtralis Technologies Ltd., Xtralis Global
    Inventors: Kemal Ajay, Ronald Knox, Brian Alexander, Kate Cooper, Rajiv Kumar Singh, Thor North, Stephen James Pattinson, Peter Massingbard-Mundy, Alasdair James Williamson
  • Publication number: 20180366570
    Abstract: A beam detector including a light source, a receiver, and a target, acting in cooperation to detect particles in a monitored area. The target reflects incident light, resulting in reflected light being returned to receiver. The receiver is capable of recording and reporting light intensity at a plurality of points across its field of view. In the preferred form the detector emits a first light beam in a first wavelength band; a second light beam in a second wavelength band; and a third light beam in a third wavelength band, wherein the first and second wavelengths bands are substantially equal and are different to the third wavelength band.
    Type: Application
    Filed: August 23, 2018
    Publication date: December 20, 2018
    Inventors: Ronald Knox, Kate Cooper, Kemal Ajay
  • Patent number: 10094777
    Abstract: A beam detector including a light source, a receiver, and a target, acting in cooperation to detect particles in a monitored area. The target reflects incident light, resulting in reflected light being returned to receiver. The receiver is capable of recording and reporting light intensity at a plurality of points across its field of view. In the preferred form the detector emits a first light beam in a first wavelength band; a second light beam in a second wavelength band; and a third light beam in a third wavelength band, wherein the first and second wavelengths bands are substantially equal and are different to the third wavelength band.
    Type: Grant
    Filed: August 25, 2016
    Date of Patent: October 9, 2018
    Assignee: Garrett Thermal Systems Limited
    Inventors: Ronald Knox, Kate Cooper, Kemal Ajay
  • Publication number: 20170184496
    Abstract: A particle detection system including; at least one light source adapted to illuminate a volume being monitored at at least two wavelengths; a receiver having a field of view and being adapted to receive light from at least one light source after said light has traversed the volume being monitored and being adapted to generate signals indicative of the intensity of light received at regions within the field of view of the receiver; a processor associated with the receiver adapted to process the signals generated by the receiver to correlate light received at at least two wavelengths in corresponding regions within the field of view of the receiver and generate an output indicative of the relative level of light received at the two wavelengths.
    Type: Application
    Filed: March 10, 2017
    Publication date: June 29, 2017
    Inventors: Ronald Knox, Kate Cooper, Kemal Ajay
  • Patent number: 9645081
    Abstract: A particle detection system including; at least one light source adapted to illuminate a volume being monitored at at least two wavelengths; a receiver having a field of view and being adapted to receive light from at least one light source after said light has traversed the volume being monitored and being adapted to generate signals indicative of the intensity of light received at regions within the field of view of the receiver; a processor associated with the receiver adapted to process the signals generated by the receiver to correlate light received at at least two wavelengths in corresponding regions within the field of view of the receiver and generate an output indicative of the relative level of light received at the two wavelengths.
    Type: Grant
    Filed: November 30, 2015
    Date of Patent: May 9, 2017
    Assignee: Xtralis Technologies Ltd
    Inventors: Ron Knox, Kate Cooper, Kemal Ajay
  • Publication number: 20160377541
    Abstract: A beam detector including a light source, a receiver, and a target, acting in cooperation to detect particles in a monitored area. The target reflects incident light, resulting in reflected light being returned to receiver. The receiver is capable of recording and reporting light intensity at a plurality of points across its field of view. In the preferred form the detector emits a first light beam in a first wavelength band; a second light beam in a second wavelength band; and a third light beam in a third wavelength band, wherein the first and second wavelengths bands are substantially equal and are different to the third wavelength band.
    Type: Application
    Filed: August 25, 2016
    Publication date: December 29, 2016
    Inventors: Ronald Knox, Kate Cooper, Kemal Ajay
  • Patent number: 9448168
    Abstract: A beam detector including a light source, a receiver, and a target, acting in cooperation to detect particles in a monitored area. The target reflects incident light, resulting in reflected light being returned to receiver. The receiver is capable of recording and reporting light intensity at a plurality of points across its field of view. In the preferred form the detector emits a first light beam in a first wavelength band; a second light beam in a second wavelength band; and a third light beam in a third wavelength band, wherein the first and second wavelengths bands are substantially equal and are different to the third wavelength band.
    Type: Grant
    Filed: June 12, 2015
    Date of Patent: September 20, 2016
    Assignee: Xtralis Technologies Ltd
    Inventors: Ronald Knox, Kate Cooper, Kemal Ajay
  • Patent number: 9423344
    Abstract: A smoke detecting method which uses a beam of radiation such as a laser (16), to monitor a region, such as a room (12). A camera (14) is used to capture images of part of the room (12), including a path of the laser beam. Particles in the laser beam scatter light (30), and this is captured by the camera (14) for analysis. A processor (20) extracts data relating to the scattered light (30) to determine the density of particles in the beam, to determine the level of smoke in the region. The laser may have a modulated output (38) so that images captured without the laser tuned “on” can be used as a reference point and compared to images taken with the laser turned “on”, to assist in determining the level of scattered light (30) compared to ambient light. Filters (24, 26) may be used to decrease signals generated from background light.
    Type: Grant
    Filed: February 4, 2016
    Date of Patent: August 23, 2016
    Assignee: Xtralis Technologies Ltd.
    Inventors: Ron Knox, Kate Cooper, Peter Meikle, Brian Alexander
  • Publication number: 20160223437
    Abstract: A method of particle detection in an aspirated particle detection system having a sampling pipe network and a particle detector. The method includes drawing sample air to the particle detector through the air sampling network; analyzing the sample air with the particle detector; entering an amplification phase, in the event that a concentration of particles in the sample air greater than a predetermined threshold is detected, to create a plurality of sample air packets in the sampling pipe, wherein each sample air packet corresponds to a sampling inlet and includes an amplified concentration of air drawn from the corresponding sampling inlet; transporting the sample air including the plurality of sample air packets through the sampling pipe to the particle detector; and determining through which sampling inlet any particles entered the particle detection system.
    Type: Application
    Filed: October 16, 2014
    Publication date: August 4, 2016
    Inventors: Kemal Ajay, Ronald Knox, Brian Alexander, Kate Cooper, Rajiv Kumar Singh, Thor North, Stephen James Pattinson, Peter Massingbard- Mundy, Alasdair James Williamson
  • Publication number: 20160153906
    Abstract: A smoke detecting method which uses a beam of radiation such as a laser (16), to monitor a region, such as a room (12). A camera (14) is used to capture images of part of the room (12), including a path of the laser beam. Particles in the laser beam scatter light (30), and this is captured by the camera (14) for analysis. A processor (20) extracts data relating to the scattered light (30) to determine the density of particles in the beam, to determine the level of smoke in the region. The laser may have a modulated output (38) so that images captured without the laser tuned “on” can be used as a reference point and compared to images taken with the laser turned “on”, to assist in determining the level of scattered light (30) compared to ambient light. Filters (24, 26) may be used to decrease signals generated from background light.
    Type: Application
    Filed: February 4, 2016
    Publication date: June 2, 2016
    Applicant: Xtralis Technologies Ltd.
    Inventors: Ron KNOX, Kate COOPER, Peter MEIKLE, Brian ALEXANDER
  • Publication number: 20160116389
    Abstract: A particle detector, e.g. a smoke detector is described. In one form the detector includes a detection chamber and radiation source emitting a single beam of radiation. The detector also includes a radiation receiving system and an imaging system arranged to receive radiation from a common region of interest. Methods and systems for analysing the output of a particle detector are also disclosed.
    Type: Application
    Filed: June 3, 2014
    Publication date: April 28, 2016
    Inventors: Kate Cooper, Ronald Knox
  • Patent number: 9291555
    Abstract: A smoke detecting method which uses a beam of radiation such as a laser (16), to monitor a region, such as a room (12). A camera (14) is used to capture images of part of the room (12), including a path of the laser beam. Particles in the laser beam scatter light (30), and this is captured by the camera (14) for analysis. A processor (20) extracts data relating to the scattered light (30) to determine the density of particles in the beam, to determine the level of smoke in the region. The laser may have a modulated output (38) so that images captured without the laser tuned “on” can be used as a reference point and compared to images taken with the laser turned “on”, to assist in determining the level of scattered light (30) compared to ambient light. Filters (24, 26) may be used to decrease signals generated from background light.
    Type: Grant
    Filed: March 3, 2015
    Date of Patent: March 22, 2016
    Assignee: Xtralis Technologies Ltd.
    Inventors: Ron Knox, Kate Cooper, Peter Meikle, Brian Alexander