Patents by Inventor Will Ragan

Will Ragan 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: 11799631
    Abstract: One-time-pad (OTP) encryption systems and methodologies are resistant to cracking, even by advanced quantum computers. In contrast to some purported solutions, the required elements of an unbreakable OTP system are preserved under Claude Shannon's mathematical proof. In alternative embodiments, the invention uses a secure network to reconstitute blockchain systems without the use of asymmetric encryption. Described extensions of these block chain systems are described which enable an entirely new set of applications for protecting privacy, sharing information, performing validations and analysis of data, and creating system actions that are constrained by complex data algorithms.
    Type: Grant
    Filed: March 8, 2022
    Date of Patent: October 24, 2023
    Inventors: Will Ragan, Jack Ragan
  • Patent number: 11784795
    Abstract: One-time-pad (OTP) encryption systems and methodologies are resistant to cracking, even by advanced quantum computers. In contrast to some purported solutions, the required elements of an unbreakable OTP system are preserved under Claude Shannon's mathematical proof. In alternative embodiments, the invention uses a secure network to reconstitute blockchain systems without the use of asymmetric encryption. Described extensions of these block chain systems are described which enable an entirely new set of applications for protecting privacy, sharing information, performing validations and analysis of data, and creating system actions that are constrained by complex data algorithms.
    Type: Grant
    Filed: March 8, 2022
    Date of Patent: October 10, 2023
    Inventors: Will Ragan, Jack Ragan
  • Publication number: 20230228538
    Abstract: Matter and energy are delivered by superimposing multiple quantum wave states such that composite wave amplitudes are maximized at delivery target points and/or minimized at designated intermediate points. One or more target locations are identified for delivery of matter or energy waves, analyzing the medium along the transit path from the emitters, calculating interaction probabilities at each point along the medium, creating a scoring system for optimizing and limiting thresholds of interaction in designated regions; and calculating a combination of wave frequencies, emitter locations and vectors such that quantum interference between the beams optimizes the scoring outcome. The scoring system may be used to reward amplitudes within a specified range over a specified volume of space and penalized if the amplitude falls outside the range. The combined beam may be used for various purposes, including without limitation biological or military target compromise or elimination, electrical energy delivery, etc.
    Type: Application
    Filed: July 26, 2022
    Publication date: July 20, 2023
    Inventor: Will Ragan
  • Publication number: 20230152066
    Abstract: Matter and energy are delivered by superimposing multiple quantum wave states such that composite wave amplitudes are maximized at delivery target points and/or minimized at designated intermediate points. One or more target locations are identified for delivery of matter or energy waves, analyzing the medium along the transit path from the emitters, calculating interaction probabilities at each point along the medium, creating a scoring system for optimizing and limiting thresholds of interaction in designated regions; and calculating a combination of wave frequencies, emitter locations and vectors such that quantum interference between the beams optimizes the scoring outcome. The scoring system may be used to reward amplitudes within a specified range over a specified volume of space and penalized if the amplitude falls outside the range. The combined beam may be used for various purposes, including without limitation biological or military target compromise or elimination, electrical energy delivery, etc.
    Type: Application
    Filed: January 25, 2022
    Publication date: May 18, 2023
    Inventor: Will Ragan
  • Publication number: 20220209938
    Abstract: One-time-pad (OTP) encryption systems and methodologies are resistant to cracking, even by advanced quantum computers. In contrast to some purported solutions, the required elements of an unbreakable OTP system are preserved under Claude Shannon's mathematical proof. In alternative embodiments, the invention uses a secure network to reconstitute blockchain systems without the use of asymmetric encryption. Described extensions of these block chain systems are described which enable an entirely new set of applications for protecting privacy, sharing information, performing validations and analysis of data, and creating system actions that are constrained by complex data algorithms.
    Type: Application
    Filed: March 8, 2022
    Publication date: June 30, 2022
    Inventors: Will Ragan, Jack Ragan
  • Publication number: 20220209937
    Abstract: One-time-pad (OTP) encryption systems and methodologies are resistant to cracking, even by advanced quantum computers. In contrast to some purported solutions, the required elements of an unbreakable OTP system are preserved under Claude Shannon's mathematical proof. In alternative embodiments, the invention uses a secure network to reconstitute blockchain systems without the use of asymmetric encryption. Described extensions of these block chain systems are described which enable an entirely new set of applications for protecting privacy, sharing information, performing validations and analysis of data, and creating system actions that are constrained by complex data algorithms.
    Type: Application
    Filed: March 8, 2022
    Publication date: June 30, 2022
    Inventors: Will Ragan, Jack Ragan
  • Patent number: 11271724
    Abstract: One-time-pad (OTP) encryption systems and methodologies are resistant to cracking, even by advanced quantum computers. In contrast to some purported solutions, the required elements of an unbreakable OTP system are preserved under Claude Shannon's mathematical proof. In alternative embodiments, the invention uses a secure network to reconstitute blockchain systems without the use of asymmetric encryption. Described extensions of these block chain systems are described which enable an entirely new set of applications for protecting privacy, sharing information, performing validations and analysis of data, and creating system actions that are constrained by complex data algorithms.
    Type: Grant
    Filed: February 21, 2020
    Date of Patent: March 8, 2022
    Assignee: Quantum Lock, Inc.
    Inventor: Will Ragan
  • Publication number: 20200274697
    Abstract: One-time-pad (OTP) encryption systems and methodologies are resistant to cracking, even by advanced quantum computers. In contrast to some purported solutions, the required elements of an unbreakable OTP system are preserved under Claude Shannon's mathematical proof. In alternative embodiments, the invention uses a secure network to reconstitute blockchain systems without the use of asymmetric encryption. Described extensions of these block chain systems are described which enable an entirely new set of applications for protecting privacy, sharing information, performing validations and analysis of data, and creating system actions that are constrained by complex data algorithms.
    Type: Application
    Filed: February 21, 2020
    Publication date: August 27, 2020
    Inventor: Will Ragan