Patents by Inventor Robert G. Lee
Robert G. Lee 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: 11262391Abstract: Methods and systems to detect power outage are provided herein. The system includes a Cable Modem Termination System (CMTS) to periodically poll cable modems and determine cable modems of the plurality of cable modems that are offline based on the poll. The system correlates and aggregates locations of the cable modems that are offline to determine a geographic area where a percentage of the cable modems that are offline is higher than a predetermined threshold. A report is generated indicating a power outage in the geographic area when the percentage is above the predetermined threshold.Type: GrantFiled: March 6, 2020Date of Patent: March 1, 2022Assignee: CSC Holdings, LLCInventors: Robert G. Lee, John Nicastro, Pragash Pillai, Brian Daniels
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Patent number: 10585124Abstract: Methods and systems to detect power outage are provided herein. The system includes a Cable Modem Termination System (CMTS) to periodically poll cable modems and determine cable modems of the plurality of cable modems that are offline based on the poll. The system correlates and aggregates locations of the cable modems that are offline to determine a geographic area where a percentage of the cable modems that are offline is higher than a predetermined threshold. A report is generated indicating a power outage in the geographic area when the percentage is above the pre-determined threshold.Type: GrantFiled: October 9, 2015Date of Patent: March 10, 2020Assignee: CSC Holdings, LLCInventors: Robert G. Lee, John Nicastro, Pragash Pillai, Brian Daniels
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Patent number: 9707623Abstract: A multiphase composite system is made by binding hard particles, such as TiC particles, of various sizes with a mixture of titanium powder and aluminum, nickel, and titanium in a master alloy or as elemental materials to produce a composite system that has advantageous energy absorbing characteristics. The multiple phases of this composite system include an aggregate phase of hard particles bound with a matrix phase. The matrix phase has at least two phases with varying amounts of aluminum, nickel, and titanium. The matrix phase forms a bond with the hard particles and has varying degrees of hard and ductile phases. The composite system may be used alone or bonded to other materials such as bodies of titanium or ceramic in the manufacture of ballistic armor tiles.Type: GrantFiled: November 18, 2013Date of Patent: July 18, 2017Inventor: Robert G. Lee
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Patent number: 9187909Abstract: Plural tiles are positioned in a plate-like array. The tiles have edge portions that overlap in such a way that no straight-through joints are present between abutting tiles and such that the thickness of the entire array does not substantially exceed the thickness of a single tile.Type: GrantFiled: February 25, 2013Date of Patent: November 17, 2015Inventor: Robert G. Lee
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Patent number: 8936751Abstract: A multiphase composite system is made by binding hard particles, such as TiC particles, of various sizes with a mixture of titanium powder and aluminum, nickel, and titanium in a master alloy or as elemental materials to produce a composite system that has advantageous energy absorbing characteristics. The multiple phases of this composite system include an aggregate phase of hard particles bound with a matrix phase. The matrix phase has at least two phases with varying amounts of aluminum, nickel, and titanium. The matrix phase forms a bond with the hard particles and has varying degrees of hard and ductile phases. The composite system may be used alone or bonded to other materials such as bodies of titanium or ceramic in the manufacture of ballistic armor tiles.Type: GrantFiled: July 24, 2012Date of Patent: January 20, 2015Inventor: Robert G. Lee
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Publication number: 20140154126Abstract: A multiphase composite system is made by binding hard particles, such as TiC particles, of various sizes with a mixture of titanium powder and aluminum, nickel, and titanium in a master alloy or as elemental materials to produce a composite system that has advantageous energy absorbing characteristics. The multiple phases of this composite system include an aggregate phase of hard particles bound with a matrix phase. The matrix phase has at least two phases with varying amounts of aluminum, nickel, and titanium. The matrix phase forms a bond with the hard particles and has varying degrees of hard and ductile phases. The composite system may be used alone or bonded to other materials such as bodies of titanium or ceramic in the manufacture of ballistic armor tiles.Type: ApplicationFiled: November 18, 2013Publication date: June 5, 2014Inventor: Robert G. Lee
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Patent number: 8608822Abstract: A multiphase composite system is made by binding hard particles, such as TiC particles, of various sizes with a mixture of titanium powder and aluminum, nickel, and titanium in a master alloy or as elemental materials to produce a composite system that has advantageous energy absorbing characteristics. The multiple phases of this composite system include an aggregate phase of hard particles bound with a matrix phase. The matrix phase has at least two phases with varying amounts of aluminum, nickel, and titanium. The matrix phase forms a bond with the hard particles and has varying degrees of hard and ductile phases. The composite system may be used alone or bonded to other materials such as bodies of titanium or ceramic in the manufacture of ballistic armor tiles.Type: GrantFiled: July 9, 2012Date of Patent: December 17, 2013Inventor: Robert G. Lee
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Publication number: 20130160639Abstract: Plural tiles are positioned in a plate-like array. The tiles have edge portions that overlap in such a way that no straight-through joints are present between abutting tiles and such that the thickness of the entire array does not substantially exceed the thickness of a single tile.Type: ApplicationFiled: February 25, 2013Publication date: June 27, 2013Inventor: Robert G. Lee
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Publication number: 20120289395Abstract: A multiphase composite system is made by binding hard particles, such as TiC particles, of various sizes with a mixture of titanium powder and aluminum, nickel, and titanium in a master alloy or as elemental materials to produce a composite system that has advantageous energy absorbing characteristics. The multiple phases of this composite system include an aggregate phase of hard particles bound with a matrix phase. The matrix phase has at least two phases with varying amounts of aluminum, nickel, and titanium. The matrix phase forms a bond with the hard particles and has varying degrees of hard and ductile phases. The composite system may be used alone or bonded to other materials such as bodies of titanium or ceramic in the manufacture of ballistic armor tiles.Type: ApplicationFiled: July 24, 2012Publication date: November 15, 2012Inventor: Robert G. Lee
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Publication number: 20120276393Abstract: A multiphase composite system is made by binding hard particles, such as TiC particles, of various sizes with a mixture of titanium powder and aluminum, nickel, and titanium in a master alloy or as elemental materials to produce a composite system that has advantageous energy absorbing characteristics. The multiple phases of this composite system include an aggregate phase of hard particles bound with a matrix phase. The matrix phase has at least two phases with varying amounts of aluminum, nickel, and titanium. The matrix phase forms a bond with the hard particles and has varying degrees of hard and ductile phases. The composite system may be used alone or bonded to other materials such as bodies of titanium or ceramic in the manufacture of ballistic armor tiles.Type: ApplicationFiled: July 9, 2012Publication date: November 1, 2012Inventor: Robert G. LEE
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Patent number: 7793579Abstract: A ballistics armor system comprises plural tiles having overlapping edge portions.Type: GrantFiled: August 5, 2008Date of Patent: September 14, 2010Inventor: Robert G. Lee
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Patent number: 7687023Abstract: A composite alloy that contains TiC is made using a green binder system of titanium sponge granules and a liquid phase binder system comprising titanium, nickel, and aluminum. The alloy has a mass of less than 5 grams per cubic centimeter. The alloy may be bonded to a hard substrate to provide an armor tile.Type: GrantFiled: April 2, 2007Date of Patent: March 30, 2010Inventor: Robert G. Lee
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Patent number: 4954155Abstract: The instant invention relates to a method utilizing relatively high frequency oscillations for dispersing channelized 2:1 clays during the production of fertilizer suspensions to therein form gels as opposed to the use of mechanical energy such as, for example, that imparted by a pump or agitator. The instant sonic gelling method is effective for use with all fertilizer suspension systems containing the channelized 2:1 clays, sepiolite or attapulgite. The method involves situating the fluid fertilizer-clay mixture to be gelled in juxtaposition with ultrasonic (i.e., sonic) energy generating means.Type: GrantFiled: April 6, 1988Date of Patent: September 4, 1990Assignee: Tennessee Valley AuthorityInventors: Jimmie L. Elrod, Robert G. Lee