Inventors list |
Assignees list |
Classification tree browser |
Top 100 Inventors |
Top 100 Assignees |
Nikitin, US
Alexei V. Nikitin, Lawrence, KS US
| Patent application number | Description | Published |
|---|---|---|
| 20090259709 | METHOD AND APPARATUS FOR ADAPTIVE REAL-TIME SIGNAL CONDITIONING, PROCESSING, ANALYSIS, QUANTIFICATION, COMPARISON, AND CONTROL - Various components of the present invention are collectively designated as Adaptive Real-Time Embodiments for Multivariate Investigation of Signals (ARTEMIS). It is a method, processes, and apparatus for measurement and analysis of variables of different type and origin. In this invention, different features of a variable can be quantified either locally as individual events, or on an arbitrary spatio-temporal scale as scalar fields in properly chosen threshold space. The method proposed herein overcomes limitations of the prior art by directly processing the data in real-time in the analog domain, identifying the events of interest so that continuous digitization and digital processing is not required, performing direct, noise-resistant measurements of salient signal characteristics, and outputting a signal proportional to these characteristics that can be digitized without the need for high-speed front-end sampling. The application areas of ARTEMIS are numerous, e.g., it can be used for adaptive content-sentient real-time signal conditioning, processing, analysis, quantification, comparison, and control, and for detection, quantification, and prediction of changes in signals, and can be deployed in automatic and autonomous measurement, information, and control systems. ARTEMIS can be implemented through various physical means in continuous action machines as well as through digital means or computer calculations. Particular embodiments of the invention include various analog as well as digital devices, computer programs, and simulation tools. | 10-15-2009 |
| 20110087316 | Implantable Interface for a Medical Device System - An implantable interface system for a medical device system providing selective interconnectivity between conduits and therapy elements. The interface system contains connecting elements that each provide a robust connection between a selected conduit and a selected therapy element. The interface system enables the use of a surplus of therapy elements so that treatment to the same site (in the case of electrode migration or failure), or to different sites but within the spatial domain of the interface's elements may be delivered through the spare/excess therapy elements without the need for additional major surgical procedures. | 04-14-2011 |
| 20110112784 | Method and apparatus for adaptive real-time signal conditioning and analysis - The present invention constitutes a method, processes, and apparatus for measurement and analysis of variables of different type and origin. In particular, the invention presents a method and apparatus for real-time signal conditioning and analysis in the presense of impulsive, or sparse interferences. The present invention overcomes limitations of the prior art by providing a novel method for identifying and discriminating between, in real time, the conditions of the signal with and without impulsive disturbances. This method can be implemented without substantial changes in the signal processing chain of a communication or data acquisition system. | 05-12-2011 |
Andriy Nikitin, Hartland, MI US
| Patent application number | Description | Published |
|---|---|---|
| 20090005217 | TRANSMISSION UPSHIFT FLARE DETECTION AND MITIGATION - A transmission control module comprises an actuation module and a flare control module. The actuation module controls actuation of a friction device used in shifting from a first transmission ratio to a second transmission ratio. The transmission ratio is based on an input speed of a transmission divided by an output speed of the transmission. The first transmission ratio is greater than the second transmission ratio. The flare control module selectively generates an engine torque reduction request when a measured transmission ratio is greater than a threshold during a shift from the first transmission ratio to the second transmission ratio. | 01-01-2009 |
| 20090312921 | TRANSMISSION UPSHIFT RUN-THROUGH DETECTION AND CONTROL - A control system for a transmission of a vehicle comprises an actuation module and an upshift control module. The transmission has a first gear that corresponds to a first transmission ratio and a second gear that corresponds to a second transmission ratio that is less than the first transmission ratio. The actuation module controls an amount torque transferred to the second gear using a friction device. The upshift control module selectively increases the amount of torque transferred to the second gear based on a comparison of the first transmission ratio and a measured transmission ratio at a predetermined period of time after an upshift to the second gear is commanded, wherein the measured transmission ratio is determined based on an input speed of the transmission divided by an output speed of the transmission. | 12-17-2009 |
Anton Nikitin, Houston, TX US
| Patent application number | Description | Published |
|---|---|---|
| 20100187413 | High Temperature Photodetectors Utilizing Photon Enhanced Emission - An apparatus for estimating a property of a subterranean material, the apparatus including: a photon induced emission device configured to be disposed in a borehole penetrating the subterranean material and to provide an output related to an induced emission interaction with a received photon that generates an electron that is used for providing the output; wherein the output is used for estimating the property. | 07-29-2010 |
| 20100223010 | Wide Band Gap Semiconductor Photodetector Based Gamma Ray Detectors for Well Logging Applications - A gamma ray detector uses a scintillation detector having a response that matches a response characteristic of a photodiode. The detector may be used to measure natural gamma rays and/or gamma rays produced by interaction of neutrons from a neutron source with the earth formation. | 09-02-2010 |
| 20110029246 | Gamma Ray Detectors Having Azimuthal Sensitivity - An instrument for performing measurements downhole includes: at least one gamma-ray detector with azimuthal sensitivity equipped for discriminating energy of incident gamma-rays. This instrument is equipped with or without a neutron or gamma-ray source. A method and computer program product providing the azimuthal sensitivity of the instrument is provided. | 02-03-2011 |
| 20110062319 | APPARATUS AND METHOD FOR WELL LOGGING UTILIZING ASSOCIATE PARTICLE IMAGING - An apparatus for performing an operation in a borehole penetrating the earth includes a borehole tool and a neutron source within the borehole tool that emits neutron-alpha particles pairs as the result of a nuclear reaction. The apparatus also includes an alpha particle detector within the borehole tool arranged to detect when an alpha particle emitted by the neutron source strikes it and a gamma ray detector to detect gamma rays produced as a result of interactions between neutrons produced by the neutron source and at least one material in an area of interest outside of the borehole. The apparatus also includes a processing system that determines a characteristic of the area of interest based on a time difference between when the alpha particle strikes the alpha particle detector and a time when one or more gamma rays strikes the gamma ray detector. | 03-17-2011 |
Arkady Nikitin, Yonkers, NY US
| Patent application number | Description | Published |
|---|---|---|
| 20090121131 | Method of determination of resolution of scanning electron microscope - A method of determining a resolution of a scanning electron microscope includes using an image of an object provided by the scanning electron microscope during scanning of an object of measurement, obtaining information about a resolution of the scanning electron microscope from the image of the object during its scanning by the scanning electron microscope; and using the information for determining the resolution of the scanning electron microscope. | 05-14-2009 |
Egor Nikitin, Bellevue, WA US
| Patent application number | Description | Published |
|---|---|---|
| 20100293103 | INTERACTION MODEL TO MIGRATE STATES AND DATA - A party associated with a digital license is identified from a digital license bound to a user's user ID. This digital license identifies a set of rights for a software product. A determination is made as to when an additional sale associated with the software license is made, and an indication that the party is recognized in association with this sale is generated. Additionally, a license management service can determine, independent of whether the user is currently logged in to an online service with the user ID, when the digital license is to be renewed. The digital license is automatically renewed and automatically billed for (if authorized by the user), resulting in a new expiration date for the digital license. The digital license with the new expiration date is stored and subsequently sent to a device via which the user logs in to the online service with the user ID. | 11-18-2010 |
| 20100293536 | ENHANCED PRODUCT FUNCTIONALITY BASED ON USER IDENTIFICATION - A product key for a software product is obtained and an activation service is accessed by a device to activate the software product with the product key. A digital license associated with the software product is received from the activation service, and the digital license is bound to a set of user-identifying credentials of a user of the device. This application of the digital license can take various forms, such as enabling use of a software product altogether or enabling/disabling of a certain set of features. The digital license and an indication of an association of the digital license to the user ID is saved to a remote license management service, may be cached locally, and may expire and become unusable in the system. The license management service receives and saves this digital license, and can remove expired time-limited licenses. | 11-18-2010 |
| 20100293622 | AVAILABILITY OF PERMISSION MODELS IN ROAMING ENVIRONMENTS - A request for a digital license associated with a software product is received from a device. The request includes a user ID of a user of the device, with the digital license having been generated in response to a request to activate the software product with a product key. A check is made as to whether a digital license bound to the user ID is available, and also whether the digital license can be returned to the device in accordance with the terms of the digital license. The digital license is returned if the digital license can be returned to the device in accordance with the terms (regardless of whether the device is a same device from which the product key was activated), and otherwise is not returned. The digital license can be removed from the device in accordance with the terms of the digital license. | 11-18-2010 |
| 20110138472 | USER-ADMINISTERED LICENSE STATE VERIFICATION - The product keys of software applications that can be utilized to identify, and activate to a higher functional state, legitimate copies of such software applications can be asymmetrically encrypted. Such encrypted product keys can be provided to potential purchasers without fear of theft of the original product keys. The encrypted product keys can be provided to an independent, trusted third-party validation authority that can decrypt such encrypted product keys and can, such as in conjunction with the software application manufacturer, verify the validity of the software applications associated with such product keys. For software applications bundled on a computing device, a tool can be executed by either the seller or potential purchaser to collect and display encrypted product keys for verification purposes. For software applications sold in an online environment, an escrow service can be utilized to keep, and provide when requested, product keys of software applications offered for sale. | 06-09-2011 |
Sergei Nikitin, Springfield, VA US
| Patent application number | Description | Published |
|---|---|---|
| 20090086205 | METHOD AND APPARATUS FOR IDENTIFYING A SUBSTANCE - A spectroscopic detector includes a tunable light source, such as a continuously tunable, optical parametric oscillator laser; means for measuring the emitted radiation at a plurality of emission wavelengths to obtain a plurality of spectral measurement data; and a processor for processing the spectral measurement data, where the processor includes a multispectral data processing algorithm or is configured for 1) combining the plurality of spectral measurement data into a composite spectrum, and 2) applying the algorithm to the composite spectrum. The spectra such as resonant and near-resonant Raman Spectra that are acquired are more complete and contain more information. A powerful multispectral analysis code such as IHPS, CHOMPS, or ENN analyzes the acquired data points, examining details of the spectra that could not be handled by traditional methods. | 04-02-2009 |
| 20100309463 | SPECULAR INTEGRATING TUBE FOR SCATTERED-LIGHT SPECTROSCOPY - A scattered-light spectroscopy system for collecting light scattered from a sample, e.g. Raman-scattered light, to produce a spectrum of the sample, includes a cylindrical cell for holding the sample that is transparent and coated on either its inside surface or outside surface with a reflective coating, e.g. aluminum. The reflective coating has an opening for aligning with an aperture in a spectrometer for receiving the sample-scattered light. Light from a source such as a laser illuminates the sample to produce a scattered light having a first part received directly at the opening and a second part reflected by the reflective coating one or more times prior to arrival at the opening, thereby adding to the total scattered light entering the aperture of the spectrometer to improve its collection efficiency. | 12-09-2010 |
Vadim Nikitin, Boulder, CO US
| Patent application number | Description | Published |
|---|---|---|
| 20090129656 | VOTING IN MAMMOGRAPHY PROCESSING - Methods and systems are disclosed to aid in the detection of areas of interest in an image. Multiple image recognition processes analyze the image and identify areas of interest. The identified areas of interest are compared to determine confidence values for each identified area of interest using a voting process. The confidence values may be used in determining areas of increased interest which are highlighted on the image. In embodiments, identified areas of interest meeting a certain threshold requirement are selected as areas of increased interest. In other embodiments, new areas of increased interest are created by combining areas of interest. Embodiments of the disclosed methods and system may be used to aid in the detection of cancer in mammogram images. | 05-21-2009 |
| 20100202674 | VOTING IN MAMMOGRAPHY PROCESSING - Methods and systems are disclosed to aid in the detection of areas of interest in an image. Multiple image recognition processes analyze the image and identify areas of interest. The identified areas of interest are compared to determine confidence values for each identified area of interest using a voting process. The confidence values may be used in determining areas of increased interest which are highlighted on the image. In embodiments, identified areas of interest meeting a certain threshold requirement are selected as areas of increased interest. In other embodiments, new areas of increased interest are created by combining areas of interest. Embodiments of the disclosed methods and system may be used to aid in the detection of cancer in mammogram images. | 08-12-2010 |