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Klimov
Aleksandr Sergeevich Klimov, Moscow RU
| Patent application number | Description | Published |
|---|---|---|
| 20090055036 | System for acquiring air data during flight - The present invention relates to aviation. The proposed air data system includes pitot pressure probes with sensing ports, anti-icing electric heaters, conduits, pressure transducers, outer air temperature sensors, and computer; the above units and components are incorporated in a single streamlined housing attached to the aircraft and composed of axisymmetric surfaces. The system for air data acquisition is autonomous and interacts with the aircraft and its subsystems through only the information exchange channels and power supply lines via electric connectors. | 02-26-2009 |
Alexander Klimov, Hadera IL
| Patent application number | Description | Published |
|---|---|---|
| 20090016528 | DEVICE, SYSTEM, AND METHOD OF OBFUSCATING DATA PROCESSED WITHIN AN INTEGRATED CIRCUIT - Device, system, and method of power trace obfuscation. In some embodiments an integrated circuit may include a signal modifier to introduce a pseudo-randomly selected modification to a state-transition pattern of at least one signal, which is related to internal processing of data within the integrated circuit. Other embodiments are described and claimed. | 01-15-2009 |
| 20090116644 | SYSTEM AND METHOD FOR MASKING ARBITRARY BOOLEAN FUNCTIONS - A method and system for protecting an arbitrary Boolean function of arbitrary number of variables, N, including in a computing device, if N=1, protecting one or more definitions of the arbitrary Boolean function by applying a predetermined masking algorithm, if N>1, reiteratively defining the arbitrary Boolean function of number of variables, N, in terms of intermediate functions, G and H, of a fewer number of variables, N−M, where M | 05-07-2009 |
Alexey Klimov, Kilchberg CH
| Patent application number | Description | Published |
|---|---|---|
| 20080225273 | Mobile Remote Detection of Fluids by a Laser - Apparatus for remote laser-based detection of a analyte in a remote target region; comprising a reference container for housing a reference substance identical with the analyte; a laser unit which constituted to emit a laser beam of a tuneable wavelength towards the target region to be analysed and along a reference path which passes through the reference container for detecting the reference substance; a laser control means constituted to control wavelength of the laser beam during detection periods such that the laser wavelength is changed to allow detection of an optical absorption profile of the analyte during detection periods; an analytical detection unit which detects light from the target region and generates analytical signals during the detection periods, a reference detection unit which detects laser light passed through the reference container and generates reference signals during the detection periods; and an analysing means constituted to analyse the similarity of the analytical and reference signals or of one or more calculated functions respectively calculated from the analytical and reference signals for determining the concentration of the analyte in the target region. | 09-18-2008 |
Andrei Vladimirovich Klimov, Moscow RU
| Patent application number | Description | Published |
|---|---|---|
| 20090021579 | Device for Biometrically Controlling a Face Surface - The invention relates to the devices for contactlessly measuring surface profiles and can be used for person identification in security systems. The inventive device for contactlessly controlling surface profile comprises a pulse illumination unit which is provided with a transparency and forms a transparency image on an object surface, and image recording unit and a computer. Said device also comprises a control unit which is connected to the image recording unit in the form of a TV camera with field interlacing, the pulse illumination unit and to the computer for synchronizing the illumination of the object surface by said pulse illumination unit with the TV camera field and for synchronizing the image processing by the computer with the TV interlacing. The transparency is embodied in the form of a line screen provided with an aperiodical different width band structure and a uniform transmission along each band, thereby making it possible to identify the sequence of the line screen images on the object surface. | 01-22-2009 |
Andrey Klimov, Moscow RU
| Patent application number | Description | Published |
|---|---|---|
| 20090179996 | DEVICE FOR CONTACTLESSLY CONTROLLING THE SURFACE PROFILE OF OBJECTS - The invention relates to the devices for contactlessly measuring surface profiles and can be used for person identification in security systems. The inventive device for contactlessly controlling surface profile comprises a pulse illumination unit which is provided with a transparency and forms a transparency image on an object surface, and image recording unit and a computer. Said device also comprises a control unit which is connected to the image recording unit in the form of a TV camera with field interlacing, the pulse illumination unit and to the computer for synchronizing the illumination of the object surface by said pulse illumination unit with the TV camera field and for synchronizing the image processing by the computer with the TV interlacing. The transparency is embodied in the form of a line screen provided with an aperiodical different width band structure and a uniform transmission along each band, thereby making it possible to identify the sequence of the line screen images on the object surface. | 07-16-2009 |
Andrey Alexeevich Klimov, Puschino RU
| Patent application number | Description | Published |
|---|---|---|
| 20110175982 | METHOD OF FLUORESCENT NANOSCOPY - An analysis of an object dyed with fluorescent coloring agents carried out with the aid of a fluorescent microscope which is modified for improved resolving power and called a nanoscope. The method is carried out with a microscope having an optical system for visualizing and projecting a sample image to a video camera which records and digitizes images of individual fluorescence molecules and nanoparticles at a low noise, a computer for recording and processing images, a sample holder arranged in front of an object lens, a fluorescent radiation exciting source and a set of replaceable suppression filters for separating the sample fluorescent light. Separately fluorescing visible molecules and nanoparticles are periodically formed in different object parts, the laser produces the oscillation thereof which is sufficient for recording the non-overlapping images of the molecules and nanoparticles and for decoloring already recorded fluorescent molecules, wherein tens of thousands of pictures of recorded individual molecule and nanoparticle images, in the form of stains having a diameter on the order of a fluorescent light wavelength multiplied by a microscope amplification, are processed by a computer for searching the coordinates of the stain centers and building the object image according to millions of calculated stain center co-ordinates corresponding to the co-ordinates of the individual fluorescent molecules and nanoparticles. With this invention it is possible to obtain a two-dimensional and a three-dimensional image with a resolving power better than 20 nm and to record a color image by dyeing proteins, nucleic acids and lipids with different coloring agents. | 07-21-2011 |
Andrey Vladimirovich Klimov, Moscow RU
| Patent application number | Description | Published |
|---|---|---|
| 20080266409 | Device for Contactlessly Controlling the Surface Profile of Objects - The invention relates to devices for contactlessly measuring surface profiles and can be used for person identification in security systems. The inventive device for contactlessly controlling surface profile comprises a pulse illumination unit which is provided with a transparency and forms the transparency image on an object surface, an image recording unit and a computer. Said device also comprises a control unit which is connected to the image recording unit in the form of a TV camera with field interlacing, the pulse illumination unit and to the computer for synchronising the illumination of the object surface by said pulse illumination unit with the TV camera field and for synchronising the image processing by the computer with the TV interlacing. The transparency is embodied in the form of a line screen provided with an aperiodical different width band structure and an uniform transmission along each band, thereby making it possible to identify the sequence of the line screen images on the object surface. | 10-30-2008 |
Anton Klimov, Moscow RU
| Patent application number | Description | Published |
|---|---|---|
| 20090187764 | ELECTRONIC CERTIFICATION, IDENTIFICATION AND COMMUNICATION UTILIZING ENCRYPTED GRAPHICAL IMAGES - A system and method for electronic certification, identification and communication. According to an exemplary implementation, these processes are performed by using an electronic graphic image with encrypted information concerning the certified object. The object is accompanied with an application specific image hereafter called Electronic Virtual Stamp (EV-Stamp) having embedded and encrypted control information (keys and electronic signatures, identifiers of senders and receivers, date and other transaction related information) as well as any message to be passed. Each transaction of the EV-Stamp is monitored by a specialized Web server that maintains the records of all issued electronic stamps, all subscribed users, all involved financial transactions, and all registered assets. It is also possible to use any other graphical images to reflect on various possible applications such as exchange of the EV-Stamp for a good/service. | 07-23-2009 |
Dmitry Andreevich Klimov, Puschino RU
| Patent application number | Description | Published |
|---|---|---|
| 20110175982 | METHOD OF FLUORESCENT NANOSCOPY - An analysis of an object dyed with fluorescent coloring agents carried out with the aid of a fluorescent microscope which is modified for improved resolving power and called a nanoscope. The method is carried out with a microscope having an optical system for visualizing and projecting a sample image to a video camera which records and digitizes images of individual fluorescence molecules and nanoparticles at a low noise, a computer for recording and processing images, a sample holder arranged in front of an object lens, a fluorescent radiation exciting source and a set of replaceable suppression filters for separating the sample fluorescent light. Separately fluorescing visible molecules and nanoparticles are periodically formed in different object parts, the laser produces the oscillation thereof which is sufficient for recording the non-overlapping images of the molecules and nanoparticles and for decoloring already recorded fluorescent molecules, wherein tens of thousands of pictures of recorded individual molecule and nanoparticle images, in the form of stains having a diameter on the order of a fluorescent light wavelength multiplied by a microscope amplification, are processed by a computer for searching the coordinates of the stain centers and building the object image according to millions of calculated stain center co-ordinates corresponding to the co-ordinates of the individual fluorescent molecules and nanoparticles. With this invention it is possible to obtain a two-dimensional and a three-dimensional image with a resolving power better than 20 nm and to record a color image by dyeing proteins, nucleic acids and lipids with different coloring agents. | 07-21-2011 |
Evgeniy Andreevich Klimov, Puschino RU
| Patent application number | Description | Published |
|---|---|---|
| 20110175982 | METHOD OF FLUORESCENT NANOSCOPY - An analysis of an object dyed with fluorescent coloring agents carried out with the aid of a fluorescent microscope which is modified for improved resolving power and called a nanoscope. The method is carried out with a microscope having an optical system for visualizing and projecting a sample image to a video camera which records and digitizes images of individual fluorescence molecules and nanoparticles at a low noise, a computer for recording and processing images, a sample holder arranged in front of an object lens, a fluorescent radiation exciting source and a set of replaceable suppression filters for separating the sample fluorescent light. Separately fluorescing visible molecules and nanoparticles are periodically formed in different object parts, the laser produces the oscillation thereof which is sufficient for recording the non-overlapping images of the molecules and nanoparticles and for decoloring already recorded fluorescent molecules, wherein tens of thousands of pictures of recorded individual molecule and nanoparticle images, in the form of stains having a diameter on the order of a fluorescent light wavelength multiplied by a microscope amplification, are processed by a computer for searching the coordinates of the stain centers and building the object image according to millions of calculated stain center co-ordinates corresponding to the co-ordinates of the individual fluorescent molecules and nanoparticles. With this invention it is possible to obtain a two-dimensional and a three-dimensional image with a resolving power better than 20 nm and to record a color image by dyeing proteins, nucleic acids and lipids with different coloring agents. | 07-21-2011 |
Evgueni Klimov, Ludwigshafen DE
| Patent application number | Description | Published |
|---|---|---|
| 20100013126 | PROCESS FOR PRODUCING NANO- AND MESOFIBERS BY ELECTROSPINNING COLLOIDAL DISPERSIONS - The present invention relates to a process for producing polymer fibers, especially nano- and mesofibers, by the electrospinning process, in which a colloidal dispersion of at least one essentially water-insoluble polymer and of at least one nonionic surfactant, if appropriate further comprising at least one water-soluble polymer, is electrospun in an aqueous medium. The present invention further relates to fibers obtainable by this process. | 01-21-2010 |
| 20100221519 | PROCESS FOR PRODUCING NANO- AND MESOFIBERS BY ELECTROSPINNING COLLOIDAL DISPERSIONS COMPRISING AT LEAST ONE ESSENTIALLY WATER-INSOLUBLE POLYMER - The present invention relates to a process for producing polymer fibers, especially nano- and mesofibers, by electrospinning a colloidal dispersion of at least one essentially water-insoluble polymer in an aqueous medium, and to fibers obtainable by this process, to textile fabrics comprising the inventive fibers, and to the use of the inventive fibers and of the inventive textile fabrics. | 09-02-2010 |
| 20110129510 | FIBROUS SURFACE STRUCTURE CONTAINING ACTIVE INGREDIENTS WITH CONTROLLED RELEASE OF ACTIVE INGREDIENTS, USE THEREOF AND METHOD FOR THE PRODUCTION THEREOF - The invention relates to a fibrous surface structure containing active ingredients with an adjustable active ingredient release profile, comprising a fibrous, polymeric, soluble and/or degradable active ingredient substrate and at least one active ingredient that is associated with the substrate and can be released by the fibrous surface structure; to formulations containing active ingredients, comprising such fibrous surface structures; to the use of fibrous surface structures containing active ingredients according to the invention for producing formulations containing active ingredients; and to a method for producing fibrous surface structures according to the invention. | 06-02-2011 |
| 20110136669 | Continuous Fiber Layer Comprising an Active Substance on the Basis of Bio-Polymers, the use Thereof, and Method for the Production Thereof - The invention relates to continuous fiber layers comprising an active substance on the basis of bio-polymers, comprising a fibrous, bio-polymer active substance carrier, and at least one active substance associated with the carrier and releasable from the continuous fiber layer; to formulations comprising an active substance, said formulations comprising such continuous fiber layers; to the use of continuous fiber layers comprising an active substance for the production of formulations comprising an active substance; and to a method for the production of continuous fiber layers comprising an active substance. The invention further relates to corresponding continuous fiber layers comprising an active substance and to the use thereof for the production of wound treatment and hygiene products, and to the respectively produced wound treatment and hygiene products. | 06-09-2011 |
| 20110148004 | PROCESS FOR PRODUCING NANO- AND MESOFIBERS BY ELECTROSPINNING COLLOIDAL DISPERSIONS COMPRISING AT LEAST ONE ESSENTIALLY WATER-INSOLUBLE POLYMER - The present invention relates to a process for producing polymer fibers, especially nano- and mesofibers, by electrospinning a colloidal dispersion of at least one essentially water-insoluble polymer in an aqueous medium, and to fibers obtainable by this process, to textile fabrics comprising the inventive fibers, and to the use of the inventive fibers and of the inventive textile fabrics. | 06-23-2011 |
Konstantin Klimov, Vladivostok RU
| Patent application number | Description | Published |
|---|---|---|
| 20090066673 | Integrated force sensitive lens and software - A software compensation method that allows a touch sensitive display to be built using low-cost FSR force sensors The compensation method comprises an array of functional compensation modules including filtering, voltage conversion, temperature compensation, humidity compensation, sensor calibration, sensor reading linearization, auto calibration, positioning determination and finally end-user and mechanical calibration. The array of compensation modules can bring system accuracy from a non-compensated average positioning error in the 25% to 50% range, down to aN end-user acceptable range of 0% to 5%. The increased positioning accuracy makes it possible to use FSRs as opposed to traditional piezoresistive based touch screen sensors. | 03-12-2009 |
Mikhail Klimov, Moscow RU
| Patent application number | Description | Published |
|---|---|---|
| 20080259026 | ERGONOMIC CURSOR CONTROL DEVICE THAT DOES NOT ASSUME ANY SPECIFIC POSTURE OF HAND AND FINGERS - An ergonomic mouse-like cursor control device is disclosed that does not assume any specific posture of hand and fingers. The device provides for freedom of hand's movements rather than supports the hand in a presumably best operative posture. As a result, a human operator can continuously use the inventive cursor control device during a long time without feeling discomfort or accumulating fatigue. In one preferred embodiment, the inventive device is a plate, e.g. of a rectangular form, with a slightly elevated border or rim. For a mouse-type operation of the device, the operator may place onto the plate from one up to all five fingers, while freely flexing, extending, expanding or tightening them at any time. The plate has pressure sensitive zones playing the role of traditional mouse buttons and scrolling wheel. Various other embodiments of the inventive device may differ in shape and in number of components. | 10-23-2008 |
Oleg Vyacheslavovich Klimov, Elgava LV
| Patent application number | Description | Published |
|---|---|---|
| 20090167029 | Coaxial Rotor Windmill and Method of Increasing Kinetic Energy of the Flow - Coaxial rotor windmill, CRWM, along with its simplicity differs from all other similar devices in that it is capable, without attracting outer energy but only due to the peculiarities of its structure, to increase initial natural wind velocity and consequently, kinetic energy thereof as well as in view of a high conversion efficiency exceeding considerably the analogous rate of all the known devices of this kind to convert this kinetic energy into mechanical rotary energy. | 07-02-2009 |
| 20090169388 | Multiple Rotor Windmill and Method of Operation Thereof - The hub of the horizontal axis contains rotors rigidly attached in the radial direction by their own axes on the ground of logarithmic spiral-shaped load-bearing elements that rotate in response to the force of ram pressure and as it rotates in a wind flow around it generates lateral aerodynamic force arisen due to the Magnus effect; the total quantity thereof creates a rotary moment of the horizontal axis. | 07-02-2009 |
| 20110085910 | Rotor-type Super Windmill and Method of Increasing Kinetic Energy of Air Flow - Rotor-type super windmill based on logarithmic spiral-shaped load-bearing elements represents a single block of two vertical rotors having inverted curvature of load-bearing elements producing in the rotary mode in the inter rotor space circulation of velocity of both rotors in one direction and ensuring summation thereof with the velocity of the air flow. | 04-14-2011 |
Vadim Klimov, Odessa UA
| Patent application number | Description | Published |
|---|---|---|
| 20090235359 | METHOD AND SYSTEM FOR PERFORMING SECURITY AND VULNERABILITY SCANS ON DEVICES BEHIND A NETWORK SECURITY DEVICE - A method and system of performing vulnerability and security scans on an internet connected device where the device is behind a network security device such as a firewall. The method is performed by having an agent that is local to the device to be scanned create a VPN connection with a scanning server and then performing the scanning over the VPN. The connection is terminated at the end to free up system resources. | 09-17-2009 |
Vyacheslav Stepanovich Klimov, Minsk BY
| Patent application number | Description | Published |
|---|---|---|
| 20090167029 | Coaxial Rotor Windmill and Method of Increasing Kinetic Energy of the Flow - Coaxial rotor windmill, CRWM, along with its simplicity differs from all other similar devices in that it is capable, without attracting outer energy but only due to the peculiarities of its structure, to increase initial natural wind velocity and consequently, kinetic energy thereof as well as in view of a high conversion efficiency exceeding considerably the analogous rate of all the known devices of this kind to convert this kinetic energy into mechanical rotary energy. | 07-02-2009 |
| 20090169388 | Multiple Rotor Windmill and Method of Operation Thereof - The hub of the horizontal axis contains rotors rigidly attached in the radial direction by their own axes on the ground of logarithmic spiral-shaped load-bearing elements that rotate in response to the force of ram pressure and as it rotates in a wind flow around it generates lateral aerodynamic force arisen due to the Magnus effect; the total quantity thereof creates a rotary moment of the horizontal axis. | 07-02-2009 |
| 20110085910 | Rotor-type Super Windmill and Method of Increasing Kinetic Energy of Air Flow - Rotor-type super windmill based on logarithmic spiral-shaped load-bearing elements represents a single block of two vertical rotors having inverted curvature of load-bearing elements producing in the rotary mode in the inter rotor space circulation of velocity of both rotors in one direction and ensuring summation thereof with the velocity of the air flow. | 04-14-2011 |