Omar M.
Omar M. Alsuhaibany, Riyadh SA
Patent application number | Description | Published |
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20130097702 | WEBSITE DEFACEMENT INCIDENT HANDLING SYSTEM, METHOD, AND COMPUTER PROGRAM STORAGE DEVICE - A website defacement incident handling system and associated methodology and non-transitory computer program storage device for detecting a defacement of a website and taking appropriate corrective action upon detection of the defacement. The website defacement incident handling system receives web page information and snapshot images corresponding to websites and performs comparisons against corresponding information and snapshot images of a reference website. Probability scores indicating the likelihood that a website has been defaced are calculated based on the comparisons and corrective actions are taken as appropriate to protect the affected website. | 04-18-2013 |
Omar M. Maabreh, Bellevue, WA US
Patent application number | Description | Published |
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20120117478 | MANAGING NETWORK USAGE PER APPLICATION VIA POLICIES - Defining and applying policies to manage data traffic including data transmitted and/or received by each of a plurality of applications executing on a computing device. The data traffic is monitored per application and attributes are defined for the monitored data traffic to enable the user to evaluate the data traffic for each application. Usage patterns are determined based on the monitored data traffic and the attributes to create one or more policies. The policies are applied to prevent each application from exceeding a corresponding data usage limit defined by the policies. | 05-10-2012 |
Omar M. Ramahi, Waterloo CA
Patent application number | Description | Published |
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20090309011 | Sensitivity Enhancement of Near-Field Probes using Metamaterials - A method and material for increasing the sensitivity of near-field probes used in detecting a wide variety of materials and objects such as biological anomalies in tissues, cracks on metallic surfaces, composition of material such as permittivity and permeability . . . etc., is disclosed. The present invention includes having a metamaterial in front of near-field probes that result in increased sensitivity. The metamaterial to be placed in the presence of the near-field probe has electrical characteristics that can be described as single negative or double negative media. Once the single negative or double negative medium is placed in the close proximity or between the material to be investigated and the near-field probe, the sensitivity of the near-field probe to variation in the detected object or material will be enhanced. This invention is useful when the near-field probe is insensitive enough not to detect small variation in the composition or geometry of the target. | 12-17-2009 |
20120086463 | Metamaterial Particles for Near-Field Sensing Applications - A method and structure for designing near-field probes with high sensitivity used in detecting a wide variety of materials and objects such as biological anomalies in tissues, cracks on metallic surfaces, location of buried objects, or composition of material such as permittivity and permeability . . . etc., is disclosed. The present invention includes using single or multiple metamaterial unit cells or metamaterial particles as near-field sensors. Metamaterial unit cells are defined as the building blocks used for fabricating metamaterials that provide electrical or magnetic properties not found in naturally occurring media. Metamaterial unit cells or particles include split-ring resonators, complementary split-ring resonators, or a variety of other electrically-small resonators made of conducting wires or conducting flat surfaces. Metamaterial unit cells are excited by appropriate excitations such as small loops, microstriplines, etc. depending on the electromagnetic properties of the metamaterial unit cell. Once the metamaterial unit cell is excited, the reflection and transmission coefficients from the excitation mechanism can be measured. | 04-12-2012 |