Nenov
Chris Nenov, Palm Harbor, FL US
Patent application number | Description | Published |
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20100098823 | Portable electrical piston-driven espresso machine - A method of making espresso and a portable espresso machine incorporating that method that is compact, lightweight, requires low power, and is readily transportable. The quantity of water required to make espresso is heated to the brewing temperature in a boiler equipped with a piston. The piston is driven by an electric motor. During the brewing cycle, the hot water is pushed by the piston through the compacted coffee contained in the portafilter. The rate of piston movement is chosen such that the coffee in the portafilter is infused by the hot water at the high pressure necessary for making espresso, typically about 100 psi or higher, and also such that the contact between the coffee and water is of a duration suitable for making espresso, typically about 15-25 seconds. The components are thermally insulated and strategically placed to minimize the size of the machine and allow for portability. | 04-22-2010 |
Iliyan Nenov, Sofia BG
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20150341445 | HYBRID APPLICATIONS OPERATING BETWEEN ON-PREMISE AND CLOUD PLATFORMS - A request to consume a cloud resource is received from an on-premise application. The on-premise application is deployed to a local version of a cloud application runtime. The local version of the cloud application runtime is installed locally at an on-premise platform. The request is forwarded via a secure tunnel from the on-premise platform to the requested cloud resource. The response from the requested cloud resource is forwarded back to the requesting on-premise application via the secure tunnel. | 11-26-2015 |
Valeriy Nenov, Los Angeles, CA US
Patent application number | Description | Published |
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20090089100 | Clinical information system - A system, for interpreting information for a physician user or non-physician user, is described. The system includes a processing module configured to convert numerical data to at least one of a natural-language text and a machine vocalization. The at least one of the natural-language text and the machine vocalization describes a characteristic of the numerical data. The characteristic of the numerical data comprises at least one of a trend, a first derivative, a second derivative, a high value, a low value, and a time period, a pattern of repetition, an extrapolation, an interpolation, and a frequency. The physician user may enter data or receive data by voice alone through the backend database. The physician user may also order tests, labs or check on the same by voice alone. | 04-02-2009 |
20090093686 | Multi Automated Severity Scoring - Some embodiments of the invention provide an automated method for continuously monitoring at least one patient. The method continuously collects medical data about the patient from several different inputs. The method integrates the collected data, and continuously computes at least one severity score for the patient based on the integrated data. The method uses the severity scores to continuously monitor the patient. In some embodiments, integrating the data includes formatting the data so that that the data can be used to compute the severity score. Formatting the data in some embodiments includes using a set of database tables to convert the data. In some embodiments, the database tables are modifiable by a user. Some embodiments continuously compute multiple severity scores. The severity scores computed in some embodiments include the APACHE II score, the SAPS II score, the MEWS score, or user-defined severity scores. | 04-09-2009 |
Valeriy I. Nenov, Westchester, CA US
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20100049082 | DATA MINING SYSTEM FOR NONINVASIVE INTRACRANIAL PRESSURE ASSESSMENT - Systems and methods are described for noninvasively assessing an intracranial pressure of a patient. Some embodiments include providing a simulation model with a measured arterial blood pressure of the patient. Some embodiments further include providing the simulation model with a measured cerebral blood flow velocity of the patient. The simulation model correlates arterial blood pressure values, cerebral blood flow velocity values, and intracranial pressure values. Some embodiments further includes determining an intracranial pressure of the patient based on the simulation model. Some embodiments further includes creating an output data set indicative of the determined intracranial pressure. | 02-25-2010 |
Valeriy I. Nenov, Los Angeles, CA US
Patent application number | Description | Published |
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20090177477 | Voice-Controlled Clinical Information Dashboard - A method provides a display area of a computer system for displaying a set of data. The data includes clinical data for one or more medical patients. The method provides multiple controls for performing multiple functions. The method provides an audio interface for controlling at least one of the controls through audio commands. | 07-09-2009 |