Markin
Evgeny Markin, Moscow RU
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20120007769 | Method of automatic target angle tracking by sum-and-difference monopulse radar and device therefore - Method of automatic target angle tracking by sum-and-difference monopulse radar covers radiolocation sphere and specifically monopulse direction finding systems. It can be used in order to increase guidance accuracy, for example, for anti aircraft missiles and of unmanned aerial vehicles to radar targets such as: radio beacons; aerial vehicles reflecting the radio signal that illuminates them; aerial vehicles and ground-based devices radiating radio signals and jamming signals. The aim of the method consists in the assurance of reliability and stability and in the enhancement of guidance accuracy of automatic target angle tracking due to elimination of automatic tracking losses and great errors arising during the influence of the signals of orthogonal polarization or polarization close to it. | 01-12-2012 |
20120013500 | Method of Automatic Target Angle Tracking by Monopulse Radar under Conditions of Interference Distorting Location Characteristic - Method of automatic target angle tracking by sum-and-difference monopulse radar covers radiolocation sphere and specifically monopulse direction finding systems. It can be used in order to increase guidance accuracy, for example, for anti aircraft missiles and of unmanned aerial vehicles to radar targets such as: radio beacons; aerial vehicles reflecting the radio signal that illuminates them; aerial vehicles and ground-based devices radiating radio signals and jamming signals. The aim of the method consists in the assurance of reliability and stability and in the enhancement of guidance accuracy of automatic target angle tracking due to elimination of automatic tracking losses and great errors arising during the influence of the signals of orthogonal polarization or polarization close to it. | 01-19-2012 |
Narinder Markin, Morrisville, NC US
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20090183028 | METHOD AND SYSTEM FOR MODELING, VALIDATING AND AUTOMATICALLY RESOLVING GOALS AND DEPENDENCIES BETWEEN ELEMENTS WITHIN A TOPOLOGY - Computer implemented method, system and computer usable program code for configuring a computing system. A determination is made whether there are any errors in the model, and responsive to determining that there is at least one error in the model, a determination is made whether there is at least one resolution for correcting the at least one error. Responsive to determining that there is at least one resolution for correcting the at least one error, at least one resolution among the at least one resolution for correcting the at least one error is selected to form at least one selected resolution to correct the at least one error. The at least one selected resolution is applied to the model to form a transformed model, and the transformed model is output to a user. | 07-16-2009 |
Rodney S. Markin, Omaha, NE US
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20090181449 | DEVICE AND METHOD FOR AUTOMATING MICROBIOLOGY PROCESSES - A device and method for automating the handling and testing of microbiological specimens are provided. A portable specimen collection vehicle (SCV) is provided which comprises a protective housing, a specimen chamber for receiving a biospecimen sample, a plurality of culturing chambers each for receiving a portion of the biospecimen sample and each containing a different culture medium, a system of fluid ducts connecting the specimen chamber to each of the culturing chambers, and an actuator that facilitates flow of portions of the biospecimen sample from the specimen chamber through the system of fluid ducts and into each of the culturing chambers, wherein biological organisms in the biospecimen begin to grow in one or more of the culturing chambers and cultured portions of the biospecimen sample can be withdrawn selectively from the apparatus. A microbiology automation platform includes a computer system that integrates microbiology laboratory instruments and workflow logic in order to perform organism detection and susceptibilities on specimens contained in an SCV. The platform is intended to automate the work of a medical technologist which is characteristically labor intensive. The work performed by the platform includes accession of the specimen, pre-test processes, detection and susceptibility assays, post-test handling and reporting of results. | 07-16-2009 |
20100004779 | METHOD FOR AUTOMATIC TESTING OF ANATOMICAL LABORATORY SPECIMENS - A method for automatic evaluation, processing and/or testing of an anatomic pathology specimen is disclosed. The specimen is placed into a primary or secondary container labeled with a unique identification code, placed into a specimen carrier, and the carrier marked with an identification code which uniquely identifies the specimen and, by virtue of the identification code, the evaluation, processing and/or tests to be conducted thereon. The identification code may be in the form of a bar code, an RFID tag or similar device or any other identification that is either human read able, machine readable or electronically transferred. The specimen contained within the specimen container or within the specimen carrier is entered into the anatomic pathology, histology or molecular diagnostics LAS at a receiving station, which reads the identification code. | 01-07-2010 |
20110207169 | SYSTEM AND METHOD FOR ANATOMICAL PATHOLOGY SAMPLE HANDLING, STORAGE, AND ANALYSIS - A carrier strip having a plurality of areas for retaining anatomical pathology specimens may have a backing, a cover coupled to the backing along side regions located along opposite longitudinal edges of the carrier strip and along lateral intermediate regions positioned between each of the plurality of areas for retaining anatomical pathology specimens. The carrier strip may be configured to individually retain each of the anatomical pathology specimens in one of the plurality of areas for retaining anatomical pathology specimens between the backing and the cover. Diagnostic studies of anatomical pathology specimens may be facilitated by distributing a digital copy of an image of the specimen may be to a pathologist. A diagnosis may be received from the pathologist based on the digital image of the specimen. | 08-25-2011 |
Sergey Markin, Herzeliya IL
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20140180981 | SYSTEM AND METHODS FOR COMPUTERIZED MACHINE-LEARNING BASED AUTHENTICATION OF ELECTRONIC DOCUMENTS INCLUDING USE OF LINEAR PROGRAMMING FOR CLASSIFICATION - Electronic document classification comprising providing training documents sorted into classes; linear programming including selecting inputs which maximize an output, given constraints on inputs, the output maximized being a difference between: a. first estimated probability that a document instance will be correctly classified, by a classifier corresponding to given inputs, as belonging to its own class, and b. second estimated probability that document instance will be classified, by the classifier, as not belonging to its own class; and classifying electronic document instances into classes, using a preferred classifier corresponding, to the inputs selected by the linear programming. A computerized electronic document forgery detection method provides training documents and uses a processor to select value-ranges of non-trivial parameters, such that selected values-range(s) of parameters are typical to an authentic document of given class, and atypical to a forged document of same class. | 06-26-2014 |
Serguei Serqueevich Markin, Moscow RU
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20110064818 | PHARMACEUTICAL COMPOSITION AND A METHOD FOR THE PRODUCTION THEREOF - The invention relates to producing medicinal agents for treating diabetes. There is proposed a method for producing a pharmaceutical composition containing insulin on a polysaccharide carrier, which involves mixing initial ingredients, wherein there is provided, for mixing, supplying positively charged chitosan sol with pH of 3.5 to 4.5 and negatively charged zinc free insulin, which is taken in the form of a colloidal solution or in the form of nanosized crystalline particles, bringing the pH of the mixed sol to a value of 5.5 to 6.5, producing a gel and dehydrating the produced gel to obtain solid particles, the size of which ranges from 10 to 100 mkm. The method makes it possible to produce a stable controlled release insulin-containing composition for peroral administration | 03-17-2011 |