Slomka
Frank Slomka, Oldenburg DE
Patent application number | Description | Published |
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20080276247 | Method for the Real-Time Analysis of a System - The invention relates to a method for the real-time analysis of a system, especially a technical system, which is to process tasks (τ). A job that is defined by processing of a task (τ) generates system expenses. In order to create a particularly quick and accurate method, an approximation of the method is cancelled when it is considered that an interval (I, I | 11-06-2008 |
20100017168 | Method of testing the real-time capability of a system - The invention relates to a method for analyzing, especially in real time, a system, particularly a computer system, which comprises a set of different tasks (τ). At least some of the tasks (τ | 01-21-2010 |
Frank Slomka, Blaustein DE
Patent application number | Description | Published |
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20120036510 | Method for Analysing the Real-Time Capability of a System - The invention provides a method for analysing the real-time capability of a system, in particular a computer system, where various tasks are provided, wherein the tasks are repeatedly performed and wherein an execution of a task is triggered by an activation of the task and this represents an event of the task, wherein a plurality of descriptive elements are provided to describe the time correlation of the events as event stream, wherein the event streams may detect the maximum time densities of the events and/or the minimum time densities of the events, and wherein at least a further descriptive element to which an amount of event streams is assigned and which describes the time correlation of an entirety of events which are captured by at least two event streams. | 02-09-2012 |
Piotr J. Slomka, Los Angeles, CA US
Patent application number | Description | Published |
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20120243764 | METHOD AND SYSTEM FOR PLAQUE CHARACTERIZATION - A method of quantifying plaques imaged by cardiac computed tomography angiography (“CCTA”) scan data. Calcified and non-calcified component thresholds are determined based at least in part on attenuation values of a pool of blood in the CCTA scan data. An epicardial fat threshold is determined and used to classify epicardial fat in the CCTA scan data. A portion of CCTA scan data positioned between a detected outer boundary of the coronary artery and a portion classified as lumen is classified as arterial wall. NCP and CP seeds are identified in the arterial wall portion. Portions of the CCTA scan data continuous with a NCP seed and having attenuation values greater than an artery wall value and less than the NCP threshold are classified as NCP, and portions of the CCTA scan data continuous with the CP seed and having attenuation values greater than the CP threshold are classified as CP. | 09-27-2012 |
20120245460 | METHOD OF DETERMINING ISCHEMIA USING PAIRED STRESS AND REST SCANS - A method of identifying perfusion abnormalities in a heart of a patient. The method is performed with a patient stress map including stress values, a patient rest map including rest values, and one or more normal maps. The normal maps may include a normal change limit map including change limits, and a normal stress limit map including stress limits. The stress and rest maps are co-registered with one another and the normal maps. The method includes creating a patient change map by subtracting the rest count values of the rest map from the stress count values of the co-registered stress map. Then, in some embodiments, the patient stress and change maps are jointly compared to the normal stress and change limit maps to detect one or more hypoperfused regions. In such embodiments, the one or more regions detected are identified as having perfusion abnormalities and optionally displayed. | 09-27-2012 |