Salaam
Azif Abdul Salaam, Bangalore IN
Patent application number | Description | Published |
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20140118113 | DETECTING ROGUE RADIO FREQUENCY BASED TAGS BASED ON LOCATIONING - A method and system for detecting rogue radio frequency based devices includes a plurality of radio frequency based tags disposed at different locations within an area and operable to periodically broadcast information in a beacon, the information including each tag's unique identity information. A map of the area specifies identified radio frequency based tags and their respective locations within the area. A mobile device reads beacons in proximity to the radio frequency based tags and sends location update messages to a server that detects rogue radio frequency based devices within the area based on the location update messages and the map. | 05-01-2014 |
Latisha Evette Salaam, Cincinnati, OH US
Patent application number | Description | Published |
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20090188636 | Soft tissue paper having a polyhydroxy compound applied onto a surface thereof - A tissue paper product having at least one ply, wherein only one outer surface of said tissue paper product has a polyhydroxy compound applied thereto by slot extrusion, said polyhydroxy compound providing said tissue paper product with a Wet Burst greater than about 90 g, a Dynamic Coefficient of Friction less than about 0.9, and a Bending Flexibility less than about 0.1 gf cm | 07-30-2009 |
20090188637 | SOFT TISSUE PAPER HAVING A POLYHYDROXY COMPOUND AND LOTION APPLIED ONTO A SURFACE THEREOF - The present invention provides a paper product having at least one ply, wherein only one outer surface of said tissue paper has a polyhydroxy compound and a lotion applied thereto. | 07-30-2009 |
20110104443 | SOFT TISSUE PAPER HAVING A POLYHYDROXY COMPOUND APPLIED ONTO A SURFACE THEREOF - A tissue paper product having at least one ply, wherein only one outer surface of said tissue paper product has a polyhydroxy compound selected from the group consisting of glycerols, polyglycerols, polyethylene glycols (PEGS), polyoxyethylenes, polyoxypropylenes, and combinations thereof applied thereto by slot extrusion, said polyhydroxy compound providing said tissue paper product with a Wet Burst greater than about 90g, a Dynamic Coefficient of Friction less than about 0.9, and a Bending Flexibility less than about 0.1 gf cm | 05-05-2011 |
Latisha Evette Salaam, Leesburg, GA US
Patent application number | Description | Published |
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20100313648 | PROCESS FOR DEMONSTRATING TISSUE PRODUCT BREAK-THROUGH - A method for demonstrating the comparative break-though strengths of at least two tissue products is disclosed. The steps include: a) providing a break-through test apparatus b) providing the tissue products; c) observing a first condition of each tissue product; d) disposing a first of the tissue products between a lower platen and an upper platen in a face-to-face-to-face relationship between coextensive apertures disposed within the lower and upper platen; e) providing a simulated mucous composition; f) directing a first portion of the simulated mucous composition toward the first tissue product; g) observing a second condition of the first tissue product; h) disposing a second tissue product between the coextensive apertures; i) directing a second portion of the simulated mucous composition toward the second tissue product; j) observing a second condition of the second tissue product; and, k) comparing the second condition of the first tissue product and the second condition of the second tissue product. | 12-16-2010 |
20100313649 | PROCESS FOR DETERMINING TISSUE PRODUCT BREAK-THROUGH - A method for testing the break-through strength of a tissue product is disclosed. The method entails the steps of: a) observing a first condition of the tissue product; b) disposing the tissue product between a lower platen and an upper platen; c) disposing at least a portion of the tissue product within an aperture disposed within the lower platen and an aperture disposed within the upper platen; d) providing a simulated mucous composition; e) directing the simulated mucous composition toward the tissue product disposed within the aperture disposed within the lower platen and the aperture disposed within the upper platen; f) after step d), observing a second condition of the tissue product; and, g) comparing the first and the second conditions of the tissue product. | 12-16-2010 |
20100313671 | APPARATUS FOR DETERMINING TISSUE PRODUCT BREAK-THROUGH - An apparatus for testing the break-through strength of a tissue product is disclosed. The apparatus comprises a dose addition assembly having an opening and a sample holder. The sample holder comprises a lower platen and an upper platen disposed in a fact to face relationship and each having coextensive openings disposed therein. The opening of the dose addition assembly is disposed proximate to one of the openings disposed within the upper and lower platens. A substance is disposed within the dose addition assembly and is capable of being expectorated from the opening of the dose addition assembly through one of the openings disposed within the upper and lower platens onto a tissue product disposed between the upper and lower platens and within the openings disposed within the upper and lower platens. | 12-16-2010 |
Latisha Evette Salaam, Cincinnnati, OH US
Patent application number | Description | Published |
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20110303374 | SOFT TISSUE PAPER HAVING A POLYHYDROXY COMPOUND AND LOTION APPLIED ONTO A SURFACE THEREOF - The present disclosure provides a paper product having at least two plies. Only one outer surface of the tissue paper product has a lotion and a polyhydroxy compound having a molecular weight ranging from about 150 to about 4,000 and selected from the group consisting of glycerols, polyglycerols, polyethylene glycols (PEGs), polyoxyethylenes, polyoxypropylenes, and combinations thereof applied thereto by slot extrusion. The polyhydroxy compound provides the tissue paper product with a Wet Burst greater than about 90 g, a Dynamic Coefficient of Friction less than about 0.9, and a Bending Flexibility less than about 0.042 gf cm | 12-15-2011 |