Patents by Inventor Justin Abramson
Justin Abramson 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: 20240127367Abstract: A crop prediction system performs various machine learning operations to predict crop production and to identify a set of farming operations that, if performed, optimize crop production. The crop prediction system uses crop prediction models trained using various machine learning operations based on geographic and agronomic information. Responsive to receiving a request from a grower, the crop prediction system can access information representation of a portion of land corresponding to the request, such as the location of the land and corresponding weather conditions and soil composition. The crop prediction system applies one or more crop prediction models to the access information to predict a crop production and identify an optimized set of farming operations for the grower to perform.Type: ApplicationFiled: August 25, 2023Publication date: April 18, 2024Inventors: David Patrick Perry, Geoffrey Albert von Maltzahn, Robert Berendes, Eric Michael Jeck, Barry Loyd Knight, Rachel Ariel Raymond, Ponsi Trivisvavet, Justin Y H Wong, Neal Hitesh Rajdev, Marc-Cedric Joseph Meunier, Casey James Leist, Pranav Ram Tadi, Andrea Lee Flaherty, Charles David Brummitt, Naveen Neil Sinha, Jordan Lambert, Jonathan Hennek, Carlos Becco, Mark Allen, Daniel Bachner, Fernando Derossi, Ewan Lamont, Rob Lowenthal, Dan Creagh, Steve Abramson, Ben Allen, Jyoti Shankar, Chris Moscardini, Jeremy Crane, David Weisman, Gerard Keating, Lauren Moores, William Pate
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Patent number: 11460444Abstract: A method and an aircraft air contaminant analyzer for determining and classifying air contaminants, providing a sample flow path and bypass flow path bypassing the sample flow path, are disclosed, the analyzer comprising a contaminant collector comprising a medium desorbing captured contaminants, the collector providing a first sample flow path; a heater vaporizing captured contaminants; a bypass comprising a channel including a second sample flow path, the channel bypassing the collector; a sensor responding when air contaminant mass is added to or removed from the sensor, for classifying contaminant type; the sensor receiving contaminants desorbed from the medium; a frequency measurement device measuring the response generated by the sensor as the air contaminant is added to and removed from the sensor; a computer readable medium bearing a contaminant recognition program and calibration data; and, a processor executing the program, the program including a module classifying the contaminant by type.Type: GrantFiled: April 23, 2019Date of Patent: October 4, 2022Assignee: Pall CorporationInventors: Richard Mlcak, Patrick Gwynne, Aidan Kodas, Justin Abramson
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Patent number: 11243145Abstract: Disclosed are methods for determining and classifying aircraft air contaminants comprising one or more of: turbine engine oil, hydraulic fluid and deicing fluid using contaminant analyzers comprising a contaminant collector comprising a membrane and a heater vaporizing the contaminants; a gravimetric sensor generating a response when contaminant mass is added to or removed from the sensor, the sensor receiving contaminants desorbed from the heated membrane; a frequency measurement device, measuring the response generated by the sensor as the contaminant is added to and removed from the sensor; a computer readable medium bearing a contaminant recognition program and calibration data; a processor executing the program, the program including a module classifying contaminants by type, and a module using the data for comparison with magnitude of response generated by the sensor to calculate contaminant concentration; and, a pump, generating flow of air through the collector before and after the membrane is heated.Type: GrantFiled: February 19, 2021Date of Patent: February 8, 2022Assignee: Pall CorporationInventors: Richard Mlcak, Aidan Kodas, Patrick Gwynne, Justin Abramson
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Publication number: 20210181070Abstract: Methods for determining and classifying by type aircraft air contaminants, and aircraft air contaminant analyzers, are disclosed.Type: ApplicationFiled: February 19, 2021Publication date: June 17, 2021Inventors: Richard MLCAK, Aidan KODAS, Patrick GWYNNE, Justin ABRAMSON
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Patent number: 10955318Abstract: Disclosed are methods for determining and classifying aircraft air contaminants using contaminant analyzers comprising a contaminant collector comprising a membrane and a heater vaporizing captured contaminants; a gravimetric sensor generating a proportionate response when contaminant mass is added to or removed from the sensor, the sensor arranged to receive contaminants desorbed from the membrane when the membrane is heated; a frequency measurement device, measuring the response generated by the sensor as the contaminant is added to and removed from the sensor; a computer readable medium bearing a contaminant recognition program and calibration data; a processor executing the recognition program, the program including a module classifying contaminants by type, and a module using the calibration data for comparison with magnitude of the response generated by the sensor to calculate contaminant concentration; and, a pump, generating flow of aircraft air through the contaminant collector before and after the mType: GrantFiled: April 23, 2019Date of Patent: March 23, 2021Assignee: Pall CorporationInventors: Richard Mlcak, Aidan Kodas, Patrick Gwynne, Justin Abramson
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Publication number: 20200340950Abstract: A method and an aircraft air contaminant analyzer for determining and classifying by type aircraft air contaminants, providing a sample flow path and bypass flow path bypassing the sample flow path, are disclosed.Type: ApplicationFiled: April 23, 2019Publication date: October 29, 2020Inventors: Richard MLCAK, Patrick GWYNNE, Aidan KODAS, Justin ABRAMSON
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Publication number: 20200340889Abstract: Methods for determining and classifying by type aircraft air contaminants, and aircraft air contaminant analyzers, are disclosed.Type: ApplicationFiled: April 23, 2019Publication date: October 29, 2020Inventors: Richard MLCAK, Aidan KODAS, Patrick GWYNNE, Justin ABRAMSON
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Publication number: 20100265561Abstract: The invention relates to electro-optic displays and methods for driving such displays. The invention provides (i) electrochromic displays with solid charge transport layers; (ii) apparatus and methods for improving the contrast and reducing the cost of electrochromic displays; (iii) apparatus and methods for sealing electrochromic displays from the outside environment and preventing ingress of contaminants into such a display; and (iv) methods for adjusting the driving of electro-optic displays to allow for environmental and operating parameters.Type: ApplicationFiled: June 30, 2010Publication date: October 21, 2010Applicant: E INK CORPORATIONInventors: Holly G. Gates, Charles H. Honeyman, Ara N. Knaian, Steven J. O'Neil, Richard J. Paolini, JR., Jonathan L. Zalesky, Robert W. Zehner, Ian D. Morrison, Anthony Edward Pullen, Jianna Wang, John Edward Cronin, Justin Abramson, Karl R. Amundson, Guy M. Danner, Gregg M. Duthaler
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Publication number: 20070035808Abstract: An electro-optic display comprises a layer (130) of a solid electro-optic material, at least one electrode disposed adjacent the layer (130) of electro-optic material, and a layer (180) of a lamination adhesive interposed between the layer (130) of electro-optic material and the electrode, the lamination adhesive (180) having a higher electrical conductivity in a direction perpendicular to the layer of lamination adhesive than in the plane of the layer.Type: ApplicationFiled: July 5, 2006Publication date: February 15, 2007Applicant: E INK CORPORATIONInventors: Karl Amundson, Robert Zehner, Richard Webber, Katharine Geramita, Libing Zhang, Andrew Loxley, Gregg Duthaler, John Ritter, Michael Steiner, Mavyn Holman, Justin Abramson, Glen Crossley
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Patent number: 6995550Abstract: A method for sensing the state of an electrophoretic display includes the steps of applying an electrical signal to a display element, measuring an electrical response for the display element, and deducing the state of the display element from the measured electrical response. Also, the parameters of the display materials are determined using the encapsulated electrophoretic display media as a sensor, either alone or in conjunction with other sensors.Type: GrantFiled: August 27, 2003Date of Patent: February 7, 2006Assignee: E Ink CorporationInventors: Joseph M. Jacobson, Paul Drzaic, Steven J. O'Neil, Holly G. Gates, Justin Abramson
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Patent number: 6950220Abstract: The invention relates to electro-optic displays and methods for driving such displays. The invention provides (i) electrochromic displays with solid charge transport layers; (ii) apparatus and methods for improving the contrast and reducing the cost of electrochromic displays; (iii) apparatus and methods for sealing electrochromic displays from the outside environment and preventing ingress of contaminants into such a display; and (iv) methods for adjusting the driving of electro-optic displays to allow for environmental and operating parameters.Type: GrantFiled: March 18, 2003Date of Patent: September 27, 2005Assignee: E Ink CorporationInventors: Justin Abramson, Karl R. Amundson, Guy M. Danner, Gregg M. Duthaler, Holly G. Gates, Charles H. Honeyman, Ara N. Knaian, Ian D. Morrison, Steven J. O'Neil, Richard J. Paolini, Jr., Anthony Edward Pullen, Jianna Wang, Jonathan L. Zalesky, Robert W. Zehner, John Edward Cronin
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Publication number: 20050190137Abstract: A backplane for an electro-optic display comprises a plurality of pixel electrodes, and an adhesive layer disposed adjacent the backplane, the adhesive layer comprising a plurality of pixel regions disposed adjacent the pixel electrodes of the backplane, and at least one inter-pixel region disposed between two pixels of the backplane, the at least one inter-pixel region having at least one of a lower dielectric constant and a higher volume resistivity than the pixel regions of the adhesive layer.Type: ApplicationFiled: February 25, 2005Publication date: September 1, 2005Applicant: E INK CORPORATIONInventors: Gregg Duthaler, Guy Danner, Jason Pinto, Justin Abramson, David Miller, John Atkinson, Alain Bouchard
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Publication number: 20050152018Abstract: The invention relates to electro-optic displays and methods for driving such displays. The invention provides (i) electrochromic displays with solid charge transport layers; (ii) apparatus and methods for improving the contrast and reducing the cost of electrochromic displays; (iii) apparatus and methods for sealing electrochromic displays from the outside environment and preventing ingress of contaminants into such a display; and (iv) methods for adjusting the driving of electro-optic displays to allow for environmental and operating parameters.Type: ApplicationFiled: March 23, 2005Publication date: July 14, 2005Applicant: E INK CORPORATIONInventors: Justin Abramson, Karl Amundson, Guy Danner, Gregg Duthaler, Holly Gates, Charles Honeyman, Ara Knaian, Ian Morrison, Steven O'Neil, Richard Paolini, Anthony Pullen, Jianna Wang, Jonathan Zalesky, Robert Zehner, John Cronin
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Publication number: 20050099672Abstract: A method for sensing the state of an electrophoretic display includes the steps of applying an electrical signal to a display element, measuring an electrical response for the display element, and deducing the state of the display element from the measured electrical response. Also, the parameters of the display materials are determined using the encapsulated electrophoretic display media as a sensor, either alone or in conjunction with other sensors.Type: ApplicationFiled: August 27, 2003Publication date: May 12, 2005Applicant: E Ink CorporationInventors: Joseph Jacobson, Paul Drzaic, Steven O'Neil, Holly Gates, Justin Abramson
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Patent number: 6831769Abstract: An electro-optic display comprises first and second substrates and a lamination adhesive layer and a layer of a solid electro-optic material disposed between the first and second substrates, the lamination adhesive layer having a volume resistivity, measured at 10° C., which does not change by a factor of more than about 3 after being held at 25° C. and 45 percent relative humidity for 1000 hours. The electro-optic material is preferably an encapsulated electrophoretic material. Other desirable characteristics of lamination adhesives for use in electro-optic displays are also described.Type: GrantFiled: July 9, 2002Date of Patent: December 14, 2004Assignee: E Ink CorporationInventors: Mavyn M. Holman, Justin Abramson, Glen Crossley, Katharine Geramita, Robert W. Zehner, Karl R. Amundson, Libing Zhang, Richard M. Webber
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Publication number: 20030214695Abstract: The invention relates to electro-optic displays and methods for driving such displays. The invention provides (i) electrochromic displays with solid charge transport layers; (ii) apparatus and methods for improving the contrast and reducing the cost of electrochromic displays; (iii) apparatus and methods for sealing electrochromic displays from the outside environment and preventing ingress of contaminants into such a display; and (iv) methods for adjusting the driving of electro-optic displays to allow for environmental and operating parameters.Type: ApplicationFiled: March 18, 2003Publication date: November 20, 2003Applicant: E INK CORPORATIONInventors: Justin Abramson, Karl R. Amundson, Guy M. Danner, Gregg M. Duthaler, Holly G. Gates, Charles H. Honeyman, Ara N. Knaian, Ian D. Morrison, Steven J. O'Neil, Richard J. Paolini, Anthony E. Pullen, Jianna Wang, Jonathan L. Zalesky, Robert W. Zehner, John Edward Cronin
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Publication number: 20030102858Abstract: A method for sensing the state of an electrophoretic display includes the steps of applying an electrical signal to a display element, measuring an electrical response for the display element, and deducing the state of the display element from the measured electrical response. Also, the parameters of the display materials are determined using the encapsulated electrophoretic display media as a sensor, either alone or in conjunction with other sensors.Type: ApplicationFiled: October 22, 2002Publication date: June 5, 2003Applicant: E Ink CorporationInventors: Joseph M. Jacobson, Paul Drzaic, Steven J. O'Neil, Holly G. Gates, Justin Abramson
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Publication number: 20030025855Abstract: An electro-optic display comprises first and second substrates and a lamination adhesive layer and a layer of a solid electro-optic material disposed between the first and second substrates, the lamination adhesive layer having a volume resistivity, measured at 10° C., which does not change by a factor of more than about 3 after being held at 25° C. and 45 percent relative humidity for 1000 hours. The electro-optic material is preferably an encapsulated electrophoretic material. Other desirable characteristics of lamination adhesives for use in electro-optic displays are also described.Type: ApplicationFiled: July 9, 2002Publication date: February 6, 2003Applicant: E lnk CorporationInventors: Mavyn M. Holman, Justin Abramson, Glen Crossley, Katharine Geramita, Robert W. Zehner, Karl R. Amundson, Libing Zhang, Richard M. Webber