Patents by Inventor Gregory A. STONE

Gregory A. STONE 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: 10032351
    Abstract: Systems and methods are disclosed for reliably detecting gunfire in enclosed spaces having significant acoustic reverberation. Implementations are configured to quickly and reliably report the room or portion of a room where gunfire is located. Innovations herein may ensure low false alarm rate by thresholding, pattern recognition and/or detecting the muzzle optical flash. In some embodiments, a review center with trained personnel may evaluate the incident before reporting to local authorities. The indoor system can be incorporated into an outdoor gunshot location system to better protect a local area such as a campus or a transportation hub. Systems and methods herein may involve features and functionality associated with additional resources, such as intercoms, cellphones, and access control, to provide mitigation of harm in case of a shooting.
    Type: Grant
    Filed: January 18, 2016
    Date of Patent: July 24, 2018
    Assignee: ShotSpotter, Inc.
    Inventors: Robert Showen, James Beldock, Gregory Stone, Murphey Johnson, Robert Calhoun
  • Patent number: 9929031
    Abstract: A method includes identifying a wafer position for a plurality of die on a wafer, storing the wafer position for each of the plurality of die in a database, dicing the wafer into a plurality of singulated die, positioning each of the singulated die in a die position location on a tray, and storing the die position on the tray for each of the singulated die in the database. The database includes information including the wafer position associated with each die position. The tray is transported to a processing tool, and at least one of the plurality of singulated die is removed from the die position on the tray and processed in the processing tool. The processed singulated die is replaced in the same defined location on the tray that the singulated die was positioned in prior to the processing. Other embodiments are described and claimed.
    Type: Grant
    Filed: October 17, 2016
    Date of Patent: March 27, 2018
    Assignee: INTEL CORPORATION
    Inventors: John C. Johnson, Eric J. Moret, Lawrence M. Palanuk, Gregory A. Stone
  • Publication number: 20170032991
    Abstract: A method includes identifying a wafer position for a plurality of die on a wafer, storing the wafer position for each of the plurality of die in a database, dicing the wafer into a plurality of singulated die, positioning each of the singulated die in a die position location on a tray, and storing the die position on the tray for each of the singulated die in the database. The database includes information including the wafer position associated with each die position. The tray is transported to a processing tool, and at least one of the plurality of singulated die is removed from the die position on the tray and processed in the processing tool. The processed singulated die is replaced in the same defined location on the tray that the singulated die was positioned in prior to the processing. Other embodiments are described and claimed.
    Type: Application
    Filed: October 17, 2016
    Publication date: February 2, 2017
    Inventors: John C. JOHNSON, Sandeep B. SANE, Sandeep RAZDAN, Edward R. PRACK, Leonel R. ARANA, Peter A. DAVISON, Eric J. MORET, Lawrence M. PALANUK, Gregory A. STONE
  • Patent number: 9496161
    Abstract: A method includes identifying a wafer position for a plurality of die on a wafer, storing the wafer position for each of the plurality of die in a database, dicing the wafer into a plurality of singulated die, positioning each of the singulated die in a die position location on a tray, and storing the die position on the tray for each of the singulated die in the database. The database includes information including the wafer position associated with each die position. The tray is transported to a processing tool, and at least one of the plurality of singulated die is removed from the die position on the tray and processed in the processing tool. The processed singulated die is replaced in the same defined location on the tray that the singulated die was positioned in prior to the processing. Other embodiments are described and claimed.
    Type: Grant
    Filed: February 22, 2016
    Date of Patent: November 15, 2016
    Assignee: INTEL CORPORATION
    Inventors: John C. Johnson, Eric J. Moret, Lawrence M. Palanuk, Gregory A. Stone
  • Publication number: 20160172222
    Abstract: A method includes identifying a wafer position for a plurality of die on a wafer, storing the wafer position for each of the plurality of die in a database, dicing the wafer into a plurality of singulated die, positioning each of the singulated die in a die position location on a tray, and storing the die position on the tray for each of the singulated die in the database. The database includes information including the wafer position associated with each die position. The tray is transported to a processing tool, and at least one of the plurality of singulated die is removed from the die position on the tray and processed in the processing tool. The processed singulated die is replaced in the same defined location on the tray that the singulated die was positioned in prior to the processing. Other embodiments are described and claimed.
    Type: Application
    Filed: February 22, 2016
    Publication date: June 16, 2016
    Inventors: John C. JOHNSON, Sandeep B. SANE, Sandeep RAZDAN, Edward R. PRACK, Leonel R. ARANA, Peter A. DAVISON, Eric J. MORET, Lawrence M. PALANUK, Gregory A. STONE
  • Publication number: 20160133107
    Abstract: Systems and methods are disclosed for reliably detecting gunfire in enclosed spaces having significant acoustic reverberation. Implementations are configured to quickly and reliably report the room or portion of a room where gunfire is located. Innovations herein may ensure low false alarm rate by thresholding, pattern recognition and/or detecting the muzzle optical flash. In some embodiments, a review center with trained personnel may evaluate the incident before reporting to local authorities. The indoor system can be incorporated into an outdoor gunshot location system to better protect a local area such as a campus or a transportation hub. Systems and methods herein may involve features and functionality associated with additional resources, such as intercoms, cellphones, and access control, to provide mitigation of harm in case of a shooting.
    Type: Application
    Filed: January 18, 2016
    Publication date: May 12, 2016
    Inventors: Robert SHOWEN, James BELDOCK, Gregory STONE, Murphey JOHNSON, Robert CALHOUN
  • Patent number: 9305816
    Abstract: A method includes identifying a wafer position for a plurality of die on a wafer, storing the wafer position for each of the plurality of die in a database, dicing the wafer into a plurality of singulated die, positioning each of the singulated die in a die position location on a tray, and storing the die position on the tray for each of the singulated die in the database. The database includes information including the wafer position associated with each die position. The tray is transported to a processing tool, and at least one of the plurality of singulated die is removed from the die position on the tray and processed in the processing tool. The processed singulated die is replaced in the same defined location on the tray that the singulated die was positioned in prior to the processing. Other embodiments are described and claimed.
    Type: Grant
    Filed: December 28, 2013
    Date of Patent: April 5, 2016
    Assignee: INTEL CORPORATION
    Inventors: John C. Johnson, Peter A. Davison, Eric J. Moret, Lawrence M. Palanuk, Gregory A. Stone
  • Patent number: 9240114
    Abstract: Systems and methods are disclosed for reliably detecting gunfire in enclosed spaces having significant acoustic reverberation. Implementations are configured to quickly and reliably report the room or portion of a room where gunfire is located. Innovations herein may ensure low false alarm rate by thresholding, pattern recognition and/or detecting the muzzle optical flash. In some embodiments, a review center with trained personnel may evaluate the incident before reporting to local authorities. The indoor system can be incorporated into an outdoor gunshot location system to better protect a local area such as a campus or a transportation hub. Systems and methods herein may involve features and functionality associated with additional resources, such as intercoms, cellphones, and access control, to provide mitigation of harm in case of a shooting.
    Type: Grant
    Filed: March 31, 2014
    Date of Patent: January 19, 2016
    Assignee: ShotSpotter, Inc.
    Inventors: Robert Showen, James Beldock, Gregory Stone, Murphey Johnson, Robert Calhoun
  • Publication number: 20150187622
    Abstract: A method includes identifying a wafer position for a plurality of die on a wafer, storing the wafer position for each of the plurality of die in a database, dicing the wafer into a plurality of singulated die, positioning each of the singulated die in a die position location on a tray, and storing the die position on the tray for each of the singulated die in the database. The database includes information including the wafer position associated with each die position. The tray is transported to a processing tool, and at least one of the plurality of singulated die is removed from the die position on the tray and processed in the processing tool. The processed singulated die is replaced in the same defined location on the tray that the singulated die was positioned in prior to the processing. Other embodiments are described and claimed.
    Type: Application
    Filed: December 28, 2013
    Publication date: July 2, 2015
    Inventors: John C. JOHNSON, Sandeep B. SANE, Sandeep RAZDAN, Edward R. PRACK, Leonel R. ARANA, Peter A. DAVISON, Eric J. MORET, Lawrence M. PALANUK, Gregory A. STONE
  • Publication number: 20140327543
    Abstract: Systems and methods are disclosed for reliably detecting gunfire in enclosed spaces having significant acoustic reverberation. Implementations are configured to quickly and reliably report the room or portion of a room where gunfire is located. Innovations herein may ensure low false alarm rate by thresholding, pattern recognition and/or detecting the muzzle optical flash. In some embodiments, a review center with trained personnel may evaluate the incident before reporting to local authorities. The indoor system can be incorporated into an outdoor gunshot location system to better protect a local area such as a campus or a transportation hub. Systems and methods herein may involve features and functionality associated with additional resources, such as intercoms, cellphones, and access control, to provide mitigation of harm in case of a shooting.
    Type: Application
    Filed: March 31, 2014
    Publication date: November 6, 2014
    Applicant: Shotspotter, Inc.
    Inventors: Robert SHOWEN, James BELDOCK, Gregory STONE, Murphey JOHNSON, Robert CALHOUN
  • Publication number: 20070112780
    Abstract: A system to process navigation information includes a receiving module to receive a data request from a network entity. The data request includes a network entity identifier that uniquely identifies the network entity. The system further includes an application to generate a network event based on the data request, the network event including the navigation information. Finally, the system includes a publisher module to communicate the network event to a first server that is distinguished from a first plurality of servers based on the network entity identifier.
    Type: Application
    Filed: December 30, 2005
    Publication date: May 17, 2007
    Inventors: Gregory Stone, Jean-Michel Leon, James Lloyd, Eric Billingsley, Daniel Douglas, Todd Pringle, Raghav Gupta, Daniel Kao