Patents by Inventor Theodore Jacobs
Theodore Jacobs 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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Patent number: 11996983Abstract: Systems and methods are provided for a network appliance comprising a plurality of virtual private network nodes operating on the network appliance, each virtual private network node being configurable to connect to selectable virtual private network end points in an on-demand computing network. A web interface is configured to connect a client device to the network appliance and to identify a selected virtual private network end point, where the client device is connected to a particular one of the virtual private network nodes and the particular virtual private network node is connected to the selected virtual private network end point based on interactions with the web interface.Type: GrantFiled: February 3, 2022Date of Patent: May 28, 2024Assignee: Cyber IP Holdings, LLCInventors: Christopher Edward Delaney, Chava Louis Jurado, Carl Bailey Jacobs, William Theodore Schoon
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Patent number: 11971872Abstract: This disclosure describes one or more implementations of a data verification system that provides accurate validations of user trait data for data providers. For example, in various implementations, the data verification system generates and utilizes data verification models and approaches to determine the probability that user trait data obtained by data providers is accurate and correct. In this manner, the data verification system can independently evaluate the accuracy of both individual user records as well as collective segments of user records for data providers.Type: GrantFiled: September 15, 2021Date of Patent: April 30, 2024Assignee: Truthset, Inc.Inventors: Kathryn Ward Barnitt, Nawid Sayed, Aditya Chaturvedi, Theodore Jacob Kornish, Yacov Salomon, Scott Matthew McKinley
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Patent number: 11673379Abstract: A heat-sealable thermoprintable tape includes an extruded thermoplastic coating having a smooth printable surface on a first side, and an extruded heat-seal polymer layer disposed on a second side of the extruded thermoplastic coating, opposite the first side. The extruded thermoplastic coating is bonded to the heat-seal polymer layer to form the heat-sealable thermoprintable tape. A method of forming a heat-sealable thermoprintable tape includes providing a support layer having an open structure configured to support an extruded coating, applying a polyurethane coating onto a first side of the support layer and into open spaces of the open structure to form a top surface, and extruding a heat-sealable polymer onto a second side of the support layer opposite the first side and into the open spaces of the open structure. The polyurethane coating bonds to the heat-sealable polymer within the open structure of the support layer.Type: GrantFiled: July 12, 2021Date of Patent: June 13, 2023Assignee: TAJ TECH LLCInventor: Theodore A. Jacob, III
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Publication number: 20220374412Abstract: This disclosure describes one or more implementations of a data verification system that provides accurate validations of user trait data for data providers. For example, in various implementations, the data verification system generates and utilizes data verification models and approaches to determine the probability that user trait data obtained by data providers is accurate and correct. In this manner, the data verification system can independently evaluate the accuracy of both individual user records as well as collective segments of user records for data providers.Type: ApplicationFiled: September 15, 2021Publication date: November 24, 2022Inventors: Kathryn Ward Barnitt, Nawid Sayed, Aditya Chaturvedi, Theodore Jacob Kornish, Yacov Salomon, Scott Matthew McKinley
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Publication number: 20220259462Abstract: In an embodiment, a topcoat for a thermo-printable tape with a smooth printable surface includes a polymer blend, a crosslinker, a pigment, and a solvent. In one or more embodiments, the polymer blend includes a polyether polyurethane, a vinyl copolymer, and an epoxy polymer. In one or more embodiments, a thermo-printable tape with a smooth printable surface includes a topcoat layer, a basecoat layer, and a base substrate. In one or more embodiments, a topcoat layer is disposed on the basecoat layer. The basecoat layer is disposed on the base substrate. In one or more embodiments, the base substrate may include a first base layer, a second base layer and a support layer between the first and second base layers. One or more embodiments include a method of forming a thermo-printable tape.Type: ApplicationFiled: February 12, 2021Publication date: August 18, 2022Inventor: Theodore A. Jacob, III
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Publication number: 20210339512Abstract: A heat-sealable thermoprintable tape includes an extruded thermoplastic coating having a smooth printable surface on a first side, and an extruded heat-seal polymer layer disposed on a second side of the extruded thermoplastic coating, opposite the first side. The extruded thermoplastic coating is bonded to the heat-seal polymer layer to form the heat-sealable thermoprintable tape. A method of forming a heat-sealable thermoprintable tape includes providing a support layer having an open structure configured to support an extruded coating, applying a polyurethane coating onto a first side of the support layer and into open spaces of the open structure to form a top surface, and extruding a heat-sealable polymer onto a second side of the support layer opposite the first side and into the open spaces of the open structure. The polyurethane coating bonds to the heat-sealable polymer within the open structure of the support layer.Type: ApplicationFiled: July 12, 2021Publication date: November 4, 2021Inventor: THEODORE A. JACOB, III
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Patent number: 11090912Abstract: In an embodiment, a heat-sealable thermoprintable tape includes an extruded thermoplastic coating having a smooth printable surface on a first side, and an extruded heat-seal polymer layer disposed on a second side of the extruded thermoplastic coating, opposite the first side. The extruded thermoplastic coating is bonded to the heat-seal polymer layer to form the heat-sealable thermoprintable tape. In another embodiment, a method of forming a heat-sealable thermoprintable tape includes providing a support layer having an open structure configured to support an extruded coating, applying a polyurethane coating onto a first side of the support layer and into open spaces of the open structure to form a top surface, and extruding a heat-sealable polymer onto a second side of the support layer opposite the first side and into the open spaces of the open structure. The polyurethane coating bonds to the heat-sealable polymer within the open structure of the support layer.Type: GrantFiled: August 7, 2018Date of Patent: August 17, 2021Assignee: TAJ TECH LLCInventor: Theodore A. Jacob, III
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Publication number: 20200047472Abstract: In an embodiment, a heat-sealable thermoprintable tape includes an extruded thermoplastic coating having a smooth printable surface on a first side, and an extruded heat-seal polymer layer disposed on a second side of the extruded thermoplastic coating, opposite the first side. The extruded thermoplastic coating is bonded to the heat-seal polymer layer to form the heat-sealable thermoprintable tape. In another embodiment, a method of forming a heat-sealable thermoprintable tape includes providing a support layer having an open structure configured to support an extruded coating, applying a polyurethane coating onto a first side of the support layer and into open spaces of the open structure to form a top surface, and extruding a heat-sealable polymer onto a second side of the support layer opposite the first side and into the open spaces of the open structure. The polyurethane coating bonds to the heat-sealable polymer within the open structure of the support layer.Type: ApplicationFiled: August 7, 2018Publication date: February 13, 2020Inventor: THEODORE A. JACOB, III
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Patent number: 9630328Abstract: A folding tool such as a knife includes first and second spaced apart sidewalls with a blade pivotally attached to both sidewalls with a self-interlocking pivot pin. An opening in one sidewall includes a first, larger portion that receives an end of the pivot pin, and a smaller cylindrical opening that communicates with the larger portion through a slot. The end of the pivot pin slides through the slot and the sidewalls are rotated relative to one another to interlock the sidewalls. The knife may be easily assembled and disassembled without tools.Type: GrantFiled: June 25, 2015Date of Patent: April 25, 2017Assignee: Benchmade Knife Co., Inc.Inventors: Bill Koenig, Theodore Jacob Schwarz
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Publication number: 20120274273Abstract: A combined battery and wireless-communications apparatus and method. In some embodiments, the apparatus includes a support, a first conductive layer deposited on a first surface area of the support, a thin-film battery including a cathode layer, a solid-state electrolyte layer, and an anode layer deposited such that either the anode layer or the cathode layer is in electrical contact with the first conductive layer, an antenna mounted to the support structure, and an electronic communications circuit mounted to the support and electrically coupled to the battery and the antenna to transceive radio communications. Other embodiments include an energy-receiving device mounted to the support structure, and an electronic communications circuit mounted to the support structure and including a recharging circuit, the recharging circuit electrically coupled to the battery and the energy-receiving device to recharge the battery using energy received by the energy-receiving device.Type: ApplicationFiled: July 10, 2012Publication date: November 1, 2012Applicant: CYMBET CORPORATIONInventors: Harlan Theodore Jacobs, Mark Lynn Jenson, Jody Jon Klaassen, Jenn-Feng Yan
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Publication number: 20110300413Abstract: A combined battery and wireless-communications apparatus and method. In some embodiments, the apparatus includes a support, a first conductive layer deposited on a first surface area of the support, a thin-film battery including a cathode layer, a solid-state electrolyte layer, and an anode layer deposited such that either the anode layer or the cathode layer is in electrical contact with the first conductive layer, an antenna mounted to the support structure, and an electronic communications circuit mounted to the support and electrically coupled to the battery and the antenna to transceive radio communications. Other embodiments include an energy-receiving device mounted to the support structure, and an electronic communications circuit mounted to the support structure and including a recharging circuit, the recharging circuit electrically coupled to the battery and the energy-receiving device to recharge the battery using energy received by the energy-receiving device.Type: ApplicationFiled: January 25, 2011Publication date: December 8, 2011Applicant: CYMBET CORPORATIONInventors: Harlan Theodore Jacobs, Mark Lynn Jenson, Jody Jon Klaassen, Jenn-Feng Yan
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Publication number: 20090068556Abstract: A combined battery and wireless-communications apparatus and method. In some embodiments, the apparatus includes a support, a first conductive layer deposited on a first surface area of the support, a thin-film battery including a cathode layer, a solid-state electrolyte layer, and an anode layer deposited such that either the anode layer or the cathode layer is in electrical contact with the first conductive layer, an antenna mounted to the support structure, and an electronic communications circuit mounted to the support and electrically coupled to the battery and the antenna to transceive radio communications. Other embodiments include an energy-receiving device mounted to the support structure, and an electronic communications circuit mounted to the support structure and including a recharging circuit, the recharging circuit electrically coupled to the battery and the energy-receiving device to recharge the battery using energy received by the energy-receiving device.Type: ApplicationFiled: August 21, 2008Publication date: March 12, 2009Applicant: Cymbet CorporationInventors: Harlan Theodore Jacobs, Mark Lynn Jenson, Jody Jon Klaassen, Jenn-Feng Yan
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Patent number: 7433655Abstract: A combined battery and wireless-communications apparatus and method. In some embodiments, the apparatus includes a support, a first conductive layer deposited on a first surface area of the support, a thin-film battery including a cathode layer, a solid-state electrolyte layer, and an anode layer deposited such that either the anode layer or the cathode layer is in electrical contact with the first conductive layer, an antenna mounted to the support structure, and an electronic communications circuit mounted to the support and electrically coupled to the battery and the antenna to transceive radio communications. Other embodiments include an energy-receiving device mounted to the support structure, and an electronic communications circuit mounted to the support structure and including a recharging circuit, the recharging circuit electrically coupled to the battery and the energy-receiving device to recharge the battery using energy received by the energy-receiving device.Type: GrantFiled: March 23, 2001Date of Patent: October 7, 2008Assignee: Cymbet CorporationInventors: Harlan Theodore Jacobs, Mark Lynn Jenson, Jody Jon Klaassen, Jenn-Feng Yan
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Publication number: 20050167477Abstract: A plug for impeding transmission through an aperture defined by an edge in a panel. The plug is substantially elastic, and has a central portion and a peripheral portion attached to the central portion by one or more bridge portions. The central portion and the peripheral portion are separated from each other along two or more cuts. Also, the central portion includes a middle part and two or more flap parts extending from the middle part, the flap parts being defined by the cuts. The flap parts are positioned to grip the edge after the flap parts have been deformed and released in the aperture.Type: ApplicationFiled: January 31, 2005Publication date: August 4, 2005Applicant: Pavaco Plastics Inc.Inventors: Trevor Collins, Harold Scott, Paul Booker, Amir Siddiqui, Mayra Mallett, Theodore Jacobs
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Publication number: 20020037756Abstract: A combined battery and wireless-communications apparatus and method. In some embodiments, the apparatus includes a support, a first conductive layer deposited on a first surface area of the support, a thin-film battery including a cathode layer, a solid-state electrolyte layer, and an anode layer deposited such that either the anode layer or the cathode layer is in electrical contact with the first conductive layer, an antenna mounted to the support structure, and an electronic communications circuit mounted to the support and electrically coupled to the battery and the antenna to transceive radio communications. Other embodiments include an energy-receiving device mounted to the support structure, and an electronic communications circuit mounted to the support structure and including a recharging circuit, the recharging circuit electrically coupled to the battery and the energy-receiving device to recharge the battery using energy received by the energy-receiving device.Type: ApplicationFiled: March 23, 2001Publication date: March 28, 2002Applicant: Integrated Power solutions Inc.Inventors: Harlan Theodore Jacobs, Mark Lynn Jenson, Jody Jon Klaassen, Jenn-Feng Yan
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Patent number: 5023883Abstract: This invention discloses a system for generating a continuous wave (CW) chemically pumped laser in the visible and ultraviolet wavelength regions of the spectrum. This invention employs controlled condensation to produce a non-equilibrium species of metal atoms such as the sodium trimer (Na.sub.3). Continuous, coherent radiation output is achieved by producing from a convergent divergent nozzle a high speed jet of metal vapor carrier by a non-reacting gas such as nitrogen (N.sub.2). By control of the expansion rate and temperature of the metal vapor and carrier gas mixture, a metal trimer species is produced. Also from a convergent divergent nozzle a second high speed jet is produced that carries halogen atoms (such as fluorine, chlorine, bromine, or iodine) in an inert gas such as helium. The high speed jets of reactants flow in parallel. The two high speed jets of gases, alternating in halogen and metal vapor flow, output into a laser cavity. Upon mixing these gases, a chemical reaction results.Type: GrantFiled: September 26, 1989Date of Patent: June 11, 1991Inventors: Theodore A. Jacobs, George Emanuel
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Patent number: 4375687Abstract: A hypersonic wedge nozzle for chemical lasers that has a radially diverging low primary nozzle with a multiplicity of hypersonic wedge type secondary injection wedges at the exit end of the primary nozzle to allow gas flow to become supersonic in the primary nozzle before entering the regions between the secondary injection wedges or the surfaces thereof. Utilization of the large diverging primary nozzle in producing supersonic flow minimizes viscous effects in producing the supersonic flow in a chemical HF or DF laser.Type: GrantFiled: December 29, 1980Date of Patent: March 1, 1983Assignee: The United States of America as represented by the Secretary of the ArmyInventors: Dale L. Hook, John Waypa, Theodore A. Jacobs
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Patent number: 4333925Abstract: There are disclosed certain new derivatives of C-076 compounds which have been isolated from the livers of animals that had been administered ivermectin and the in vitro incubation of such compounds with animal liver preparations. The compounds retain the basic ivermectin structure, however, 24-methyl group has been oxidized to a hydroxy methyl group and, in some of the new compounds the disaccharide substituent of the starting materials has been cleaved to a monosaccharide moiety. The new compounds have been found to retain the biological activity of the parent C-076 compounds. The compounds are thus potent antiparasitic agents and compositions and methods for such uses are also disclosed.Type: GrantFiled: May 11, 1981Date of Patent: June 8, 1982Assignee: Merck & Co., Inc.Inventors: Rudolf P. Buhs, Theodore A. Jacob, Gerald Miwa, Elena Sestokas, Rae Taub, John S. Walsh