Shoop
Brian Shoop, Lexington, KY US
Patent application number | Description | Published |
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20120328743 | Method and System for Powder Coating Particulate Ice Cream - The present invention relates to a composition comprising a powder coated particulate ice cream product, wherein the particulate ice cream product is cryogenically formed. The particulate ice cream product may further comprise a plurality of coatings including one or more powder coatings. The present invention further relates to methods for coating these cryogenically frozen ice cream particles. | 12-27-2012 |
David Daniel Shoop, Grayslake, CA US
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20100192171 | Set-Top Box - Various embodiments of a set-top box are described. In some embodiments, a set-top box for controlling a display device includes first circuitry configured to control the display of information on the display device, a housing sized to contain the first circuitry, and one or more adjustable grips attached to the housing. The adjustable grips may be adapted to removably attach the set-top box to the display device. In some cases, a set-top box may be adapted to sit atop a display device having a thickness (in a viewing direction) of less than six, three, two, one, or even 0.5 inches. Some embodiments may be shaped to “hang” on a top surface or edge of a display device. Some embodiments include a set-top box having a feature shaped to hook, latch, or otherwise engage with a display device. | 07-29-2010 |
Douglas M. Shoop, Kirksville, MO US
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20090260154 | TUB DRAIN AND OVERFLOW ASSEMBLY - The invention provides a drain and overflow assembly for a tub having a drain opening and a overflow opening, including a main drainage pipe, a drain fitting having a drain inlet end configured to be connected to the drain opening and a drain outlet end configured to be connected to the main drainage pipe, a trap, an overflow receiving hub disposed between the trap and the drain inlet end, and a multi-purpose fitting including an overflow path having an overflow inlet end configured to be connected to the multi-purpose opening and an overflow outlet end configured to be connected to the overflow receiving hub, the multi-purpose fitting further including a cleanout path having a cleanout inlet end configured to be connected to the multi-purpose opening and a cleanout pipe end configured to be connected to the main drainage pipe. | 10-22-2009 |
Kelsea M. Shoop, Oregon City, OR US
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20110165080 | MONOCLONAL ANTIBODIES AND THEIR USE - Isolated monoclonal antibodies are disclosed herein that specifically bind a cell surface antigen expressed on the human pancreatic endocrine cells or a subset thereof, and/or a precursor thereof. Isolated monoclonal antibodies are also disclosed herein that specifically bind a cell surface antigen expressed on human pancreatic exocrine cells or human ductal cells. Humanized forms of these antibodies, and functional fragments of these antibodies, are also disclosed. The antibodies can be conjugated to an effector molecule, such as a detectable marker, a therapeutic agent, or a toxin. These antibodies are of use to detect and isolate pancreatic cells or a subset thereof. The antibodies can be used for in vitro or in vivo detection and/or isolation of pancreatic endocrine cells. Methods of treating a pancreatic tumor are also disclosed. In several examples, the isolated monoclonal antibodies bind pancreatic endocrine cells and can be used to detect diabetes or a pancreatic endocrine cell tumor. | 07-07-2011 |
20120121512 | MONOCLONAL ANTIBODIES AND THEIR USE - Isolated monoclonal antibodies are disclosed herein that specifically bind a cell surface antigen expressed on the human pancreatic endocrine cells or a subset thereof, and/or a precursor thereof. Isolated monoclonal antibodies are also disclosed herein that specifically bind a cell surface antigen expressed on human pancreatic exocrine cells or human ductal cells. Humanized forms of these antibodies, and functional fragments of these antibodies, are also disclosed. The antibodies can be conjugated to an effector molecule, or a detectable marker. These antibodies are of use to detect and/or isolate pancreatic cells or a subset thereof. Methods of treating a pancreatic tumor are also disclosed. | 05-17-2012 |
Kirk Shoop, Seattle, WA US
Patent application number | Description | Published |
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20130013928 | Secure Credential Unlock Using Trusted Execution Environments - Computing devices utilizing trusted execution environments as virtual smart cards are designed to support expected credential recovery operations when a user credential, e.g., personal identification number (PIN), password, etc. has been forgotten or is unknown. A computing device generates a cryptographic key that is protected with a PIN unlock key (PUK) provided by an administrative entity. If the user PIN cannot be input to the computing device the PUK can be input to unlock the locked cryptographic key and thereby provide access to protected data. A computing device can also, or alternatively, generate a group of challenges and formulate responses thereto. The formulated responses are each used to secure a computing device cryptographic key. If the user PIN cannot be input to the computing device an entity may request a challenge. The computing device issues a challenge from the set of generated challenges. Upon receiving a valid response back, the computing device can unlock the secured computing device cryptographic key associated with the issued challenge and subsequently provide access to protected data. | 01-10-2013 |
20140101454 | SECURE CREDENTIAL UNLOCK USING TRUSTED EXECUTION ENVIRONMENTS - Computing devices utilizing trusted execution environments as virtual smart cards are designed to support expected credential recovery operations when a user credential, personal identification number (PIN), password, etc. has been forgotten or is unknown. A computing device generates a cryptographic key that is protected with a PIN unlock key (PUK) provided by an administrative entity. If the user PIN cannot be input to the computing device the PUK can be input to unlock the locked cryptographic key and thereby provide access to protected data. A computing device can also, or alternatively, generate a group of challenges and formulate responses thereto. The formulated responses are each used to secure a computing device cryptographic key. If the user PIN cannot be input to the computing device an entity may request a challenge. The computing device issues a challenge from the set of generated challenges. Upon receiving a valid response back, the computing device can unlock the secured computing device cryptographic key associated with the issued challenge and subsequently provide access to protected data. | 04-10-2014 |
Wesley Lawrence Shoop, Hillsborough, NJ US
Patent application number | Description | Published |
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20100234219 | Isoxazolines for Controlling Invertebrate Pests - Disclosed are compounds of Formula (1), including all geometric and stereoisomers, N-oxides, and salts thereof, Formula (1): wherein A | 09-16-2010 |
20110263641 | Isoxazolines For Controlling Invertebrate Pests - Disclosed are compounds of Formula 1, including all geometric and stereoisomers, N-oxides, and salts thereof, | 10-27-2011 |
20130029845 | ISOXAZOLINES FOR CONTROLLING INVERTEBRATE PESTS - Disclosed are compounds of Formula 1, including all geometric and stereoisomers, N-oxides, and salts thereof, | 01-31-2013 |
20140038821 | ISOXAZOLINES FOR CONTROLLING INVERTEBRATE PESTS - Disclosed are compounds of Formula 1, including all geometric and stereoisomers, N-oxides, and salts thereof, | 02-06-2014 |
20140249314 | ISOXAZOLINES FOR CONTROLLING INVERTEBRATE PESTS - Disclosed are compounds of Formula 1, including all geometric and stereoisomers, N-oxides, and salts thereof, | 09-04-2014 |