Kilinski
Aaron Kilinski, Bethesda, MD US
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20150242632 | Computer-based risk signature generation and comparison system - A method of risk assessment of an entity includes converting one or more element of risk information into a character string and combining the character string of each element of risk information into a continuous character string to produce a signature containing the risk information for the entity. | 08-27-2015 |
Andy Kilinski, Suwanee, GA US
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20100099378 | METHODS, SYSTEMS, AND COMPUTER-READABLE-MEDIUMS FOR MANAGING ROLLOVER USAGE UNITS OF COMMUNICATION SERVICES - A rollover management system (RMS) receives and stores rollover data that includes subscriber identification and a balance of the rollover usage units that may be “rolled-over” to offset overage units used by a subscriber in excess of package plan usage units in a subsequent billing cycle. In response to receiving requests, the RMS presents rollover data elements to the requesting entities. The balance of the rollover usage units may be rolled over and measured in at least one of a plurality of billable units and may be shared by the subscriber's multiple communication services. The rollover usage units expire after a predetermined number of billing cycles where the predetermined number may vary between package plans. The RMS receives post-billing data elements to update the rollover data elements. The RMS is further operative to account for and present for review unbilled communication service usage to subscribers. | 04-22-2010 |
20120315872 | METHODS, SYSTEMS, AND COMPUTER-READABLE-MEDIUMS FOR MANAGING ROLLOVER USAGE UNITS OF COMMUNICATION SERVICES - A rollover management system (RMS) receives and stores rollover data that includes subscriber identification and a balance of the rollover usage units that may be “rolled-over” to offset overage units used by a subscriber in excess of package plan usage units in a subsequent billing cycle. In response to receiving requests, the RMS presents rollover data elements to the requesting entities. The balance of the rollover usage units may be rolled over and measured in at least one of a plurality of billable units and may be shared by the subscriber's multiple communication services. The rollover usage units expire after a predetermined number of billing cycles where the predetermined number may vary between package plans. The RMS receives post-billing data elements to update the rollover data elements. The RMS is further operative to account for and present for review unbilled communication service usage to subscribers. | 12-13-2012 |
Gary Kilinski, Scotia, NY US
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20100133912 | AUXILIARY DRIVE APPARATUS AND METHOD OF MANUFACTURING SAME - An auxiliary drive circuit including a first energy storage device coupled to a first DC bus and configured to output electrical power to the first DC bus, and a first DC-to-DC voltage converter coupled to the first DC bus and to a second DC bus, the first DC-to-DC voltage converter configured to convert the electrical power to a first voltage and to output the first voltage to the second DC bus. The auxiliary drive circuit also includes a second DC-to-DC voltage converter coupled to the second DC bus and coupled to an auxiliary bus, the second DC-to-DC voltage converter configured to convert the first voltage to a second voltage and to provide the second voltage to the auxiliary bus, the auxiliary bus configured to provide an auxiliary voltage to an auxiliary load, wherein the second voltage is different from the first voltage. | 06-03-2010 |
20120299378 | AUXILIARY DRIVE APPARATUS AND METHOD OF MANUFACTURING SAME - An auxiliary drive circuit includes a first energy storage device coupled to a first DC bus and configured to output electrical power to the first DC bus, a first switch-mode power supply coupled to the first DC bus and to a second DC bus, the first switch-mode power supply configured to convert the electrical power to a first voltage and to output the first voltage to the second DC bus, and a second switch-mode power supply coupled to the second DC bus and coupled to an auxiliary bus, the second switch-mode power supply configured to convert the first voltage to a second voltage and to provide the second voltage to the auxiliary bus, the auxiliary bus configured to provide an auxiliary voltage to an auxiliary drive system, wherein the second voltage is different from the first voltage. | 11-29-2012 |
Gary Raymond Kilinski, Scotia, NY US
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20100090525 | SYSTEM, VEHICLE AND RELATED METHOD - A system includes a first energy storage system electrically coupled to the DC-link, and the first energy storage system comprises a first energy source that can exchange electrical power with an electric motor through the DC-link; a boost converter coupled to the DC-link; a second energy storage system that can be reversibly electrically coupled to the boost converter through a contactor, and wherein an operating voltage of the second energy storage system is less than an operating voltage of the first energy source; and the second energy storage system comprises both an energy battery and a second energy source, and the second energy source has an operating voltage that is higher than the energy battery and is lower than the first energy source operating voltage. A vehicle incorporating the system and a related method are provided. | 04-15-2010 |
20110037320 | SYSTEM FOR MULTIPLE ENERGY STORAGE AND MANAGEMENT AND METHOD OF MAKING SAME - A propulsion system comprising an electric drive, a DC link electrically coupled to the electric drive, and a first energy storage system electrically coupled to the electric drive, the first energy storage system comprising at least a high specific-power energy storage device is shown. The propulsion system further includes a second energy storage system, wherein a positive terminal of the second energy storage system is electrically coupled to the electric drive through the DC link and a negative terminal of the second energy storage system is coupled in series with a positive terminal of the high specific-power energy storage device. A multi-channel bi-directional boost converter is coupled to the first energy storage system and to the second energy storage system, wherein the connection between the positive terminal of the high specific-power energy storage device and the negative terminal of the second energy storage system bypasses the multi-channel bi-directional boost converter. | 02-17-2011 |
20110246005 | APPARATUS FOR HYBRID ENGINE CONTROL AND METHOD OF MANUFACTURING SAME - An apparatus includes a transmission, an engine coupled to an input side of the transmission, and an electromechanical device coupled to an output side of the transmission. The apparatus also includes a differential coupled to the output side of the electromechanical device and a controller coupled to the electromechanical device. The controller is programmed to receive a travel range estimate and control operation of the electromechanical device based on the travel range estimate. | 10-06-2011 |
20110316345 | SYSTEM FOR MULTIPLE ENERGY STORAGE AND MANAGEMENT AND METHOD OF MAKING SAME - A propulsion system comprising an electric drive, a DC link electrically coupled to the electric drive, and a first energy storage system electrically coupled to the electric drive, the first energy storage system comprising at least a high specific-power energy storage device is shown. The propulsion system further includes a second energy storage system, wherein a first terminal of the second energy storage system is electrically coupled to the electric drive through the DC link and a second terminal of the second energy storage system is coupled in series with a terminal of the high specific-power energy storage device. A multi-channel bi-directional boost converter is coupled to the first energy storage system and to the second energy storage system, wherein the connection between the terminal of the high specific-power energy storage device and the second terminal of the second energy storage system bypasses the multi-channel bi-directional boost converter. | 12-29-2011 |
Gregory Kilinski, San Jose, CA US
Patent application number | Description | Published |
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20090088829 | Method and Apparatus for Stent Retention on a Balloon Catheter - A balloon is inflated from a collapsed configuration, then deflated. A polymeric stent is then disposed over the deflated balloon and the stent crimped to the balloon. | 04-02-2009 |
20120017416 | Method For Stent Retention On A Balloon Catheter - A balloon is inflated from a collapsed configuration, then deflated. A polymeric stem is then disposed over the deflated balloon and the stent crimped to the balloon. | 01-26-2012 |
20140052235 | STENT RETAINED ON A BALLOON CATHETER - A balloon is inflated from a collapsed configuration, then deflated. A polymeric stem is then disposed over the deflated balloon and the stent crimped to the balloon. | 02-20-2014 |
Jeffrey P. Kilinski, Glen Ellyn, IL US
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20130144775 | System and Method for a Request for Cross in a Trade Matching Engine - Systems and methods are provided to fulfill customer trading orders in an illiquid two sided market. Request for cross functionality may be implemented in a trading environment using a trading engine for the matching of trades involving financial instruments. Request for cross functionally integrates the benefits of a dual bid-ask continuous trading market model with the price and quantity trade matching systems and methods. | 06-06-2013 |
Scott Kilinski, Ballston Spa, NY US
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20150183090 | Nonwoven Abrasive Articles Made by Friction Welding - An abrasive article comprising a nonwoven substrate material having a top surface and a bottom surface; a woven cloth; a thermoplastic fastener; and a plurality of abrasive particles, wherein the cloth layer is adhered to the top surface of the nonwoven substrate material; wherein the thermoplastic fastener is disposed on the cloth, and wherein the plurality of abrasive particles are disposed on at least the bottom surface of the nonwoven abrasive substrate. | 07-02-2015 |