Snare
Brett W. Snare, Columbia, MD US
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20150019915 | SYSTEMS AND METHODS OF ANALYZING A SOFTWARE COMPONENT - A particular method includes initiating, at an analyzer, execution of a software component at a first computing device. The first computing device includes hardware components and sensors. The sensors are external to the hardware components. A first hardware component of the hardware components is coupled to a second hardware component of the hardware components. A first sensor of the sensors is configured to monitor communications between the first hardware component and the second hardware component. The method also includes receiving monitoring data, from the first sensor, regarding a communication between the first hardware component and the second hardware component. The method further includes analyzing first effects of executing the software component on the first computing device based at least partially on the monitoring data. | 01-15-2015 |
Mathias Snare, Pargas FI
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20120128572 | METHOD OF PRODUCING CALCIUM CARBONATE - A method of producing calcium carbonate. In the method a calcium oxide material is contacted in aqueous phase with carbon dioxide in a plurality of carbonation units. According to the invention, the calcium oxide material is carbonated in a first carbonation unit in an aqueous slurry at a pH in excess of 11.0 in order to produce a calcium carbonate into the aqueous slurry, from the first carbonation unit is withdrawn an effluent formed by an aqueous slurry containing calcium carbonate and calcium hydroxide, and the calcium hydroxide of the withdrawn effluent is then carbonated in a second carbonation unit to produce a calcium carbonate slurry having a pH of less than 6.9. The method allows for the production of both monodisperse particles with a narrow molecular weight distripution and multidisperse particles with a broad molecular weight distribution. | 05-24-2012 |
20140065412 | DISPERSED NANOPARTICLES IN TRANSPARENT COATINGS - The present invention concerns a transparent or semi-transparent coating prepared from coating mixture containing conventional coating components mixed with a coating slurry containing dispersed inorganic nano-particles in a content of 1-70 w-% of the slurry. Further, the invention concerns a manufacturing process of such a coating, as well as a manufacturing process of said coating slurry. | 03-06-2014 |
20140272098 | PROCESS FOR MANUFACTURING NANOPARTICLES IN A CONCENTRATED SLURRY - The present invention concerns a process for manufacturing nanoparticles in a slurry based on an aqueous solvent by treating said inorganic particles or their agglomerates in said solvent at a solids content of 30-75w-%, by adding dispersing agent(s) and by carrying out ultrasonic treatment at an intensity of 5-1000 W/cm | 09-18-2014 |
Sten Roar Snare, Trondheim NO
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20120065510 | ULTRASOUND SYSTEM AND METHOD FOR CALCULATING QUALITY-OF-FIT - An ultrasound imaging system and method include generating an image from ultrasound data of an anatomical structure and fitting a model to the image, the model including a standard view of the anatomical structure. The system and method include calculating a quality-of-fit of the image to the model. The system and method include displaying an indicator based on the quality-of-fit of the image to the model. | 03-15-2012 |
Sten Roar Snare, Oslo NO
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20160063742 | METHOD AND SYSTEM FOR ENHANCED FRAME RATE UPCONVERSION IN ULTRASOUND IMAGING - Various embodiments include systems and methods for providing motion blur reduction to one or more three-dimensional (3D) images, and/or for improving accuracy of motion-compensated frame up-interpolations. The motion blur reduction may comprise application of iterative motion estimation, starting with an initial block size and with reduced block size in each iteration, with a final velocity vector being determined by summing displacement vectors from all iterations. Accuracy of motion-compensated frame up-interpolations may be improved by use of lower resolution frames (or portions of frames), which may be used in generating information used in enhancing motion related features or characteristics of motion-compensated frames. | 03-03-2016 |