Patents by Inventor Kurt Hecht

Kurt Hecht 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: 20260148581
    Abstract: A mail hazard screening machine is configured to compress mail pieces or envelops through compression rollers and draw out this air and any hazard that may have been contained in the envelope. The system may be able to detect a wide range of hazards such as chemical, biological, radioactive, nuclear, explosive and drugs, abbreviated CBRNE+D. The sample air, the air drawn out from the hazard screening system, may be directed to one or more analysis devices and the mail processing machine may be stopped if any hazard is detected. The mail piece containing the hazard can then be found and further inspected safely. A mail feeder system may be configured to deliver mail pieces to the hazard screening system without compression of the mail pieces or envelopes.
    Type: Application
    Filed: April 14, 2025
    Publication date: May 28, 2026
    Inventors: James Malatesta, Kurt Hecht, Edward Cohen
  • Publication number: 20260065713
    Abstract: A mail signature verification system employs a software that is configured to remove pixels of a digital photograph taken of a signature through an opaque security window. The mail piece can be signed and then the signature is covered with the signature cover having a security window therein. The signature reading station of a mail processing machine compresses the security window against a press plate and illuminates the signature with a light element while taking the digital photograph. The software then analyzes the digital photograph to remove pixels having a grey scale value below an upper grey scale threshold and remove pixels above a lower grey scale threshold, thereby rendering a signature with these darkest of pixels over the lightest of pixels.
    Type: Application
    Filed: November 12, 2025
    Publication date: March 5, 2026
    Inventors: James Malatesta, Kurt Hecht, Edward Cohen
  • Patent number: 12449558
    Abstract: A mailpiece magnetic ink content (MIC) recognition detection system includes a first MIC mailpiece detector and a second MIC mailpiece detector that are coupled to an isolation assembly that isolates the MIC mailpiece detectors from the mailpiece transport system to reduce vibrations and improve sensitivity and accuracy of detecting magnetic sensitive materials in a mailpiece. A mailpiece having a magnetic material, such as a magnetic ink moves through the mailpiece transport system along the mailpiece transport axis and past the first and second MIC mailpiece detectors. The first MIC mailpiece detector is configured on a first side of the mailpiece, front for example, and the second MIC mailpiece detector is configured on a second side of the mailpiece, the back, to enable better detection of any magnetic material on and/or in the mailpiece.
    Type: Grant
    Filed: May 23, 2025
    Date of Patent: October 21, 2025
    Assignee: TRITEK TECHNOLOGIES, INC.
    Inventors: Kurt Hecht, James Malatesta, Richard DiDomizio
  • Patent number: 12313805
    Abstract: A mailpiece magnetic ink content (MIC) recognition detection system includes a first MIC mailpiece detector and a second MIC mailpiece detector that are coupled to an isolation assembly that isolates the MIC mailpiece detectors from the mailpiece transport system to reduce vibrations and improve sensitivity and accuracy of detecting magnetic sensitive materials in a mailpiece. A mailpiece having a magnetic material, such as a magnetic ink moves through the mailpiece transport system along the mailpiece transport axis and past the first and second MIC mailpiece detectors. The first MIC mailpiece detector is configured on a first side of the mailpiece, front for example, and the second MIC mailpiece detector is configured on a second side of the mailpiece, the back, to enable better detection of any magnetic material on and/or in the mailpiece.
    Type: Grant
    Filed: February 18, 2025
    Date of Patent: May 27, 2025
    Assignee: TRITEK TECHNOLOGIES, INC.
    Inventors: Kurt Hecht, James Malatesta, Richard DiDomizio
  • Patent number: 12277793
    Abstract: A mail hazard screening machine is configured to compress mail pieces or envelops through compression rollers and draw out this air and any hazard that may have been contained in the envelope. The system may be able to detect a wide range of hazards such as chemical, biological, radioactive, nuclear, explosive and drugs, abbreviated CBRNE+D. The sample air, the air drawn out from the hazard screening system, may be directed to one or more analysis devices and the mail processing machine may be stopped if any hazard is detected. The mail piece containing the hazard can then be found and further inspected safely. A mail feeder system may be configured to deliver mail pieces to the hazard screening system without compression of the mail pieces or envelopes.
    Type: Grant
    Filed: March 18, 2024
    Date of Patent: April 15, 2025
    Assignee: TRITEK TECHNOLOGIES, INC.
    Inventors: James Malatesta, Kurt Hecht, Edward Cohen
  • Publication number: 20240233431
    Abstract: A mail hazard screening machine is configured to compress mail pieces or envelops through compression rollers and draw out this air and any hazard that may have been contained in the envelope. The system may be able to detect a wide range of hazards such as chemical, biological, radioactive, nuclear, explosive and drugs, abbreviated CBRNE+D. The sample air, the air drawn out from the hazard screening system, may be directed to one or more analysis devices and the mail processing machine may be stopped if any hazard is detected. The mail piece containing the hazard can then be found and further inspected safely.
    Type: Application
    Filed: March 18, 2024
    Publication date: July 11, 2024
    Inventors: James Malatesta, Kurt Hecht, Edward Cohen
  • Patent number: 8596136
    Abstract: A system for tracking and monitoring data related to the manufacture, installation and/or life cycle of concrete structures, such as pilings, as well as related system components and methods for tracking, storing and accessing such data is provided. The system utilizes an embeddable antenna assembly as well as a sensor package that are installed in the concrete structure form before casting. The antenna provides wireless communication of the data from the structure. On board memory is also provided to store structure related data with the structure. A system for tracking a pile during driving is also provided, and life cycle monitoring is also provided.
    Type: Grant
    Filed: January 9, 2012
    Date of Patent: December 3, 2013
    Assignee: Smart Structures, Inc.
    Inventors: Kurt Hecht, Richard Hecht
  • Publication number: 20120107056
    Abstract: A system for tracking and monitoring data related to the manufacture, installation and/or life cycle of concrete structures, such as pilings, as well as related system components and methods for tracking, storing and accessing such data is provided. The system utilizes an embeddable antenna assembly as well as a sensor package that are installed in the concrete structure form before casting. The antenna provides wireless communication of the data from the structure. On board memory is also provided to store structure related data with the structure. A system for tracking a pile during driving is also provided, and life cycle monitoring is also provided.
    Type: Application
    Filed: January 9, 2012
    Publication date: May 3, 2012
    Applicant: SMART STRUCTURES, INC.
    Inventors: Kurt Hecht, Richard Hecht
  • Patent number: 8091432
    Abstract: A system for tracking and monitoring data related to the manufacture, installation and/or life cycle of concrete structures, such as pilings, as well as related system components and methods for tracking, storing and accessing such data is provided. The system utilizes one or more embeddable antenna assemblies as well as sensor packages that are installed in the concrete structure form before casting. The antenna(s) provide wireless communication of the data from the structure. On board memory is also provided to store structure related data with the structure. A system for tracking a pile during driving is also provided.
    Type: Grant
    Filed: December 15, 2009
    Date of Patent: January 10, 2012
    Assignee: Smart Structures, Inc.
    Inventors: Kurt Hecht, Richard Hecht
  • Patent number: 8061037
    Abstract: A method for casting monitored pilings and a pour diverter used in connection with the method is provided. The method includes positioning a plurality of pile strands in a form, and then connecting a suspension assembly having at least one sensor to at least one of the pile strands so that the at least one sensor is located in a piling core area. A pour diverter, having a generally V-shaped configuration, is positioned over the suspension assembly. Concrete is poured into the form over the pour diverter so that a flow of the concrete into the form is split and flows down on either side of the suspension assembly until the at least one sensor is covered. The pour diverter is then removed to finish the casting. Preferably, provisions are provided on the pour diverter for holding or covering an antenna assembly during the pour, prior to it being placed into the concrete forming the piling.
    Type: Grant
    Filed: December 15, 2006
    Date of Patent: November 22, 2011
    Assignee: Smart Structures, Inc.
    Inventor: Kurt Hecht
  • Publication number: 20110115639
    Abstract: A pile having first and second strain gauges installed in the piling core near and at the piling tip is provided. The second strain gauge is placed co-linear and at a known and controlled distance up the pile from the first strain gauge. Independent strain gauge measurements are made and transmitted to a controller, which receives signals from the strain gauges and compares them to static pre-stress levels that are initially established after casting and prior to pile installation. The dynamic force measurements are checked against expected ranges to assess pile tip integrity as well as other parameters.
    Type: Application
    Filed: November 12, 2010
    Publication date: May 19, 2011
    Applicant: SMART STRUCTURES, INC.
    Inventor: Kurt Hecht
  • Publication number: 20110032101
    Abstract: An improved antenna system, method and apparatus for interrogating and locating RFID (Radio Frequency Identification) tags and other RF (Radio Frequency) devices, and various applications therefore and thereof, are disclosed. One embodiment is for reading and locating the physical position of RFID tags (such as is made by Phillips, Siemens's Infineon and Texas Instrument) that may be embedded in gaming chips (RFID gaming chips, such as is made by Gaming Partners International Corp.) used in a casino, TV or movie studio or elsewhere for wagering at table games and other gambling games including Blackjack, Poker, Craps, Baccarat and Roulette, but the invention may be used for various other RFID applications.
    Type: Application
    Filed: October 22, 2010
    Publication date: February 10, 2011
    Applicant: Cias Inc.
    Inventors: Kurt HECHT, Leonard STORCH
  • Patent number: 7852223
    Abstract: An improved antenna system, method and apparatus for interrogating and locating RFID (Radio Frequency Identification) tags and other RF (Radio Frequency) devices, and various applications therefore and thereof, are disclosed. One embodiment is for reading and locating the physical position of RFID tags (such as is made by Phillips, Siemens's Infineon and Texas Instrument) that may be embedded in gaming chips (RFID gaming chips, such as is made by Gaming Partners International Corp.) used in a casino, TV or movie studio or elsewhere for wagering at table games and other gambling games including Blackjack, Poker, Craps, Baccarat and Roulette, but the invention may be used for various other RFID applications.
    Type: Grant
    Filed: April 28, 2009
    Date of Patent: December 14, 2010
    Assignee: CIAS, Inc.
    Inventors: Kurt Hecht, Leonard Storch
  • Publication number: 20100092247
    Abstract: A system for tracking and monitoring data related to the manufacture, installation and/or life cycle of concrete structures, such as pilings, as well as related system components and methods for tracking, storing and accessing such data is provided. The system utilizes one or more embeddable antenna assemblies as well as sensor packages that are installed in the concrete structure form before casting. The antenna(s) provide wireless communication of the data from the structure. On board memory is also provided to store structure related data with the structure. A system for tracking a pile during driving is also provided.
    Type: Application
    Filed: December 15, 2009
    Publication date: April 15, 2010
    Applicant: SMART STRUCTURES, INC.
    Inventors: Kurt Hecht, Richard Hecht
  • Patent number: 7637166
    Abstract: A system for tracking and monitoring data related to the manufacture, installation and/or life cycle of concrete structures, such as pilings, as well as related system components and methods for tracking, storing and accessing such data is provided. The system utilizes one or more embeddable antenna assemblies as well as sensor packages that are installed in the concrete structure form before casting. The antenna(s) provide wireless communication of the data from the structure. On board memory is also provided to store structure related data with the structure. A system for tracking a pile during driving is also provided.
    Type: Grant
    Filed: July 25, 2005
    Date of Patent: December 29, 2009
    Assignee: Smart Structures, Inc.
    Inventors: Kurt Hecht, Richard Hecht
  • Publication number: 20090267742
    Abstract: An improved antenna system, method and apparatus for interrogating and locating RFID (Radio Frequency Identification) tags and other RF (Radio Frequency) devices, and various applications therefore and thereof, are disclosed. One embodiment is for reading and locating the physical position of RFID tags (such as is made by Phillips, Siemens's Infineon and Texas Instrument) that may be embedded in gaming chips (RFID gaming chips, such as is made by Gaming Partners International Corp.) used in a casino, TV or movie studio or elsewhere for wagering at table games and other gambling games including Blackjack, Poker, Craps, Baccarat and Roulette, but the invention may be used for various other RFID applications.
    Type: Application
    Filed: April 28, 2009
    Publication date: October 29, 2009
    Inventors: Kurt HECHT, Leonard Storch
  • Patent number: 7561053
    Abstract: An improved antenna system, method and apparatus for interrogating and locating RFID (Radio Frequency Identification) tags and other RF (Radio Frequency) devices, and various applications therefore and thereof, are disclosed. One embodiment is for reading and locating the physical position of RFID tags (such as is made by Phillips, Siemens's Infineon and Texas Instrument) that may be embedded in gaming chips (RFID gaming chips, such as is made by Gaming Partners International Corp.) used in a casino, TV or movie studio or elsewhere for wagering at table games and other gambling games including Blackjack, Poker, Craps, Baccarat and Roulette, but the invention may be used for various other RFID applications.
    Type: Grant
    Filed: August 10, 2006
    Date of Patent: July 14, 2009
    Assignee: CIAS, Inc.
    Inventors: Kurt Hecht, Leonard Storch
  • Patent number: 7453614
    Abstract: A system and method for removing perspective distortion from an image of an object (112) moving along a transport device (114) having a top surface (124) is disclosed. A line scanner (110) to create a first image of an object. The first image is composed of a plurality of scan lines, each having a resolution. Each of the scan lines is then rescaled, so that the resolution of each scan line is equal to the resolution of every other scan line. Each of the scan lines is processed in two halves so that the center lines of the scan lines are co-linear after rescaling. The line scanner is optionally configured to vary its field of view as a function of the distance between the line scanner and the portion of the object being scanned.
    Type: Grant
    Filed: December 15, 2006
    Date of Patent: November 18, 2008
    Assignee: Accu-Sort Systems, Inc.
    Inventors: Jeffrey A. Gagliano, Han Zhang, Richard J. Skokowski, Jr., Kurt Hecht
  • Patent number: 7385743
    Abstract: A system and method for removing perspective distortion from an image of an object (112) moving along a transport device (114) having a top surface (124) is disclosed. A line scanner (110) to create a first image of an object. The first image is composed of a plurality of scan lines, each having a resolution. Each of the scan lines is then rescaled, so that the resolution of each scan line is equal to the resolution of every other scan line. Each of the scan lines is processed in two halves so that the center lines of the scan lines are co-linear after rescaling. The line scanner is optionally configured to vary its field of view as a function of the distance between the line scanner and the portion of the object being scanned.
    Type: Grant
    Filed: October 16, 2002
    Date of Patent: June 10, 2008
    Assignee: Accu-Sort Systems, Inc.
    Inventors: Jeffrey A. Gagliano, Han Zhang, Richard J. Skokowski, Jr., Kurt Hecht
  • Publication number: 20070268530
    Abstract: A system and method for removing perspective distortion from an image of an object (112) moving along a transport device (114) having a top surface (124) is disclosed. A line scanner (110) to create a first image of an object. The first image is composed of a plurality of scan lines, each having a resolution. Each of the scan lines is then rescaled, so that the resolution of each scan line is equal to the resolution of every other scan line. Each of the scan lines is processed in two halves so that the center lines of the scan lines are co-linear after rescaling. The line scanner is optionally configured to vary its field of view as a function of the distance between the line scanner and the portion of the object being scanned.
    Type: Application
    Filed: December 15, 2006
    Publication date: November 22, 2007
    Inventors: Jeffrey Gagliano, Han Zhang, Richard Skokowski, Kurt Hecht