Patents by Inventor Aaron Cole

Aaron Cole 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).

  • Publication number: 20230160661
    Abstract: Provided is a tool for providing long distance shooters with the ability to receive information from others in the field to adjust their weapon system for the best advantage based on distance, location, and range. The tool may implemented as an application on a mobile device such as a smart phone, for example, making the tool light weight, space efficient, and portable for use in the field. The communication ability allows for tracking shooting partners as well as on-the-spot coordination. The tool further provides range markings, yard lines, and topographic data that allow the shooter to make decisions based on real time data. Shooters are therefore afforded a tool that is portable, easy to use, and flexible enough to use in high-pressure environments.
    Type: Application
    Filed: October 31, 2022
    Publication date: May 25, 2023
    Applicant: The United States of America, as represented by the Secretary of the Navy
    Inventors: Aaron Cole, John D. Rodriguez
  • Patent number: 10670687
    Abstract: Apparatus and related methods are provided for evaluating effectiveness of a visual augmentation system (VAS), such as night vision goggles (NVGs). The apparatus and methods illustratively measure the response time of the visual augmentation system (VAS) as a function of targeting detection, engagement, and scan angle.
    Type: Grant
    Filed: June 15, 2017
    Date of Patent: June 2, 2020
    Assignee: The United States of America, as represented by the Secretary of the Navy
    Inventors: Kiron Mateti, Aaron Cole
  • Patent number: 10579911
    Abstract: Various embodiments can include artificial learning counter surveillance (ALCS) or self-protection surveillance systems (SPSS) and related methods. Apparatuses and methods can include non-destructive electro-optic interference or protection systems as well non-destructive directed energy systems, a control system, and an analysis system for determining an optical system of interest and generating degradation or disruption effects using various equipment items and machine learning systems. Additionally, methods are also provided for determining degree of severity of degradation or disruption based on threshold definitions related to ability to use the optical system of interest for one or more specified applications.
    Type: Grant
    Filed: March 9, 2018
    Date of Patent: March 3, 2020
    Assignee: The United States of America, as Represented by the Secretary of the Navy
    Inventors: Tyler Fitzsimmons, Betsy Marschand, Clay Armstrong, Joshua Borneman, Aaron Cole, Lauren Christopher
  • Publication number: 20180341837
    Abstract: Various embodiments can include artificial learning counter surveillance (ALCS) or self-protection surveillance systems (SPSS) and related methods. Apparatuses and methods can include non-destructive electro-optic interference or protection systems as well non-destructive directed energy systems, a control system, and an analysis system for determining an optical system of interest and generating degradation or disruption effects using various equipment items and machine learning systems. Additionally, methods are also provided for determining degree of severity of degradation or disruption based on threshold definitions related to ability to use the optical system of interest for one or more specified applications.
    Type: Application
    Filed: March 9, 2018
    Publication date: November 29, 2018
    Applicant: The United States of America, as represented by the Secretary of the Navy
    Inventors: Tyler Fitzsimmons, Betsy Marschand, Clay Armstrong, Joshua Borneman, Aaron Cole, Lauren Christopher
  • Publication number: 20170363707
    Abstract: Apparatus and related methods are provided for evaluating effectiveness of a visual augmentation system (VAS), such as night vision goggles (NVGs). The apparatus and methods illustratively measure the response time of the visual augmentation system (VAS) as a function of targeting detection, engagement, and scan angle.
    Type: Application
    Filed: June 15, 2017
    Publication date: December 21, 2017
    Inventors: Kiron Mateti, Aaron Cole
  • Patent number: 9599532
    Abstract: Systems and related methods are provided to perform optical characterization of system under tests (SUT), including one or more optical elements (OE), for various purposes including evaluation of optical resolution needed to distinguish image elements, blur, line of sight jitter, and/or pointing stability. Various testing systems and methods are provided including an embodiment having a vibration loading system (VLS), a first acceleration sensor coupled with the VLS, and a mounting structure adapted to receive the SUT. An illumination target system (ITS) emits light that passes through the SUT OE's lens and is captured by the SUT's imaging system. A light control system controls the ITS based on a plurality of activation commands and a Test Control System (TCS). The TCS receives ITS input through the SUT that is synchronized with acceleration sensor data (e.g. phase of VLS position) and analyzed via real-time or post-processing.
    Type: Grant
    Filed: July 17, 2015
    Date of Patent: March 21, 2017
    Assignee: The United States of America as represented by the Secretary of the Navy
    Inventors: Kiron Mateti, Craig Armes, Aaron Cole, Josh Borneman, Amanda Lin
  • Patent number: 9462264
    Abstract: Systems and related methods are provided to perform optical characterization of system under tests (SUT), including one or more optical elements (OE), for various purposes including evaluation of optical resolution needed to distinguish image elements, blur, line of sight jitter, and/or pointing stability. Various testing systems and methods are provided including an embodiment having a vibration loading system (VLS), a first acceleration sensor coupled with the VLS, and a mounting structure adapted to receive the SUT. An illumination target system (ITS) emits light that passes through the SUT OE's lens and is captured by the SUT's imaging system. A light control system controls the ITS based on a plurality of activation commands and a Test Control System (TCS). The TCS receives ITS input through the SUT that is synchronized with acceleration sensor data (e.g. phase of VLS position) and analyzed via real-time or post-processing including image distortion analysis.
    Type: Grant
    Filed: August 7, 2015
    Date of Patent: October 4, 2016
    Assignee: The United States of America as represented by the Secretary of the Navy
    Inventors: Kiron Mateti, Craig Armes, Aaron Cole, Josh Borneman, Amanda Lin
  • Publication number: 20160255341
    Abstract: Systems and related methods are provided to perform optical characterization of system under tests (SUT), including one or more optical elements (OE), for various purposes including evaluation of optical resolution needed to distinguish image elements, blur, line of sight jitter, and/or pointing stability. Various testing systems and methods are provided including an embodiment having a vibration loading system (VLS), a first acceleration sensor coupled with the VLS, and a mounting structure adapted to receive the SUT. An illumination target system (ITS) emits light that passes through the SUT OE's lens and is captured by the SUT's imaging system. A light control system controls the ITS based on a plurality of activation commands and a Test Control System (TCS). The TCS receives ITS input through the SUT that is synchronized with acceleration sensor data (e.g. phase of VLS position) and analyzed via real-time or post-processing including image distortion analysis.
    Type: Application
    Filed: August 7, 2015
    Publication date: September 1, 2016
    Inventors: Kiron Mateti, Craig Armes, Aaron Cole, Josh Borneman, Amanda Lin
  • Publication number: 20160252424
    Abstract: Systems and related methods are provided to perform optical characterization of system under tests (SUT), including one or more optical elements (OE), for various purposes including evaluation of optical resolution needed to distinguish image elements, blur, line of sight jitter, and/or pointing stability. Various testing systems and methods are provided including an embodiment having a vibration loading system (VLS), a first acceleration sensor coupled with the VLS, and a mounting structure adapted to receive the SUT. An illumination target system (ITS) emits light that passes through the SUT OE's lens and is captured by the SUT's imaging system. A light control system controls the ITS based on a plurality of activation commands and a Test Control System (TCS). The TCS receives ITS input through the SUT that is synchronized with acceleration sensor data (e.g. phase of VLS position) and analyzed via real-time or post-processing.
    Type: Application
    Filed: July 17, 2015
    Publication date: September 1, 2016
    Inventors: Kiron Mateti, Craig Armes, Aaron Cole, Josh Borneman, Amanda Lin