Patents by Inventor Sergey Babichenko
Sergey Babichenko has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 11344223Abstract: The present invention relates to a method and device for measuring acetone concentrations in breath. Measuring acetone concentrations is based on changes the spectral properties of the fluorophore caused by the chemical interaction of a specific fluorophore with the exhaled air containing acetone which.Type: GrantFiled: September 16, 2020Date of Patent: May 31, 2022Inventors: Slava Lebov, Sergey Babichenko, Alexander Dudelzak, Aleksei Kuznetsov, Innokenti Sobolev, Leino Vint
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Publication number: 20220079469Abstract: The present invention relates to a method and device for measuring acetone concentrations in breath. Measuring acetone concentrations is based on changes the spectral properties of the fluorophore caused by the chemical interaction of a specific fluorophore with the exhaled air containing acetone which.Type: ApplicationFiled: September 16, 2020Publication date: March 17, 2022Inventors: Slava Lebov, Sergey Babichenko, Alexander Dudelzak, Alekei Kuznetsov, Innokenti Sobolev, Leino Vint
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Patent number: 10041882Abstract: This relates to the field of real-time detection of chemical contamination of water in harsh environmental conditions by using laser remote sensing apparatus for detection of oil or oil products. In-time detection and localization of oil pollution in seawater are the measures to minimize potential damages to the marine and coastal environment. A technical solution for remote detection and classification of chemical pollution in water, to optimize operational parameters, weight, size and power consumption of such device, to make possible continuous unattended operation of such device on board of a moving or stationary platform and to provide data processing and reporting the results through communication channels is described.Type: GrantFiled: November 21, 2014Date of Patent: August 7, 2018Assignee: Ocean Visuals ASInventors: Sergey Babichenko, Leino Vint
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Patent number: 9863887Abstract: The invention relates to a unit and method for detection of presence of oil on the water surface or in the water column. Unit comprises a sensor, whereby the sensor is connected to electronic compartment followed by microprocessor controller with embedded software for carrying out necessary analyses of reflected signals received by the sensor. The microprocessor controller is connected to communication means for transmitting an alarm signal through external communication line in case of oil pollution. All elements mentioned above are supplied by external power supply and are accommodated into a waterproof housing. The sensor comprises the probe light source formed by a pulsed UV LED, collimating optics and narrow band optical filter, at least one dichroic mirror, a projection-receiving lens, at least one optical filter, at least one photodetector and a reference photodetector.Type: GrantFiled: November 15, 2012Date of Patent: January 9, 2018Assignee: NEMOR TECHNOLOGIES OUInventor: Sergey Babichenko
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Publication number: 20160252457Abstract: This relates to the field of real-time detection of chemical contamination of water in harsh environmental conditions by using laser remote sensing apparatus for detection of oil or oil products. In-time detection and localization of oil pollution in seawater are the measures to minimize potential damages to the marine and coastal environment. A technical solution for remote detection and classification of chemical pollution in water, to optimize operational parameters, weight, size and power consumption of such device, to make possible continuous unattended operation of such device on board of a moving or stationary platform and to provide data processing and reporting the results through communication channels is described.Type: ApplicationFiled: November 21, 2014Publication date: September 1, 2016Applicant: LDI INNOVATION OÜInventors: Sergey BABICHENKO, Leino VINT
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Publication number: 20150293032Abstract: The invention relates to a unit and method for detection of presence of oil on the water surface or in the water column. Unit comprises a sensor, whereby the sensor is connected to electronic compartment followed by microprocessor controller with embedded software for carrying out necessary analyses of reflected signals received by the sensor. The microprocessor controller is connected to communication means for transmitting an alarm signal through external communication line in case of oil pollution. All elements mentioned above are supplied by external power supply and are accommodated into waterproof housing. The sensor comprises the probe light source formed by a pulsed UV LED, collimating optics and narrow band optical filter, at least one dichroic mirror, a projection-receiving lens, at least one optical filter, at least one photodetector and a reference photodetector.Type: ApplicationFiled: November 15, 2012Publication date: October 15, 2015Applicant: NEMOR TECHNOLOGIES OÜInventor: Sergey Babichenko
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Patent number: 8404488Abstract: The invention is provided for detection of Heroin and Morphine in illicit drug samples, also for their differentiation. A liquid sample from a street sample is prepared and divided into two equal aliquots, one of them being reference sample, another being main sample. Both samples are treated with Hydrochloric acid and Sodium hydroxide, but those substances are added to the samples in the different sequence. After that the measurement of SFS of the reference sample is performed. Further the presence of specific spectral pattern of Morphine in the measured SFS of the reference, sample is detected and the value of SFS intensity at the specific spectral point is fixed (a reference value). After 15 minutes for acidification of the main sample, the analogous measurement and detection of the Morphine in the main sample are performed.Type: GrantFiled: July 7, 2008Date of Patent: March 26, 2013Assignee: Nartest International ASInventors: Sergey Babichenko, Tatjana Ivkina, Larisa Poryvkina, Vitaly Sominsky
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Patent number: 7995203Abstract: The invention is intended for illicit drug detection, preferably to Cocaine detection in street samples containing in addition to Cocaine also adulterants and/or diluents (also denominated as cutting agents) used for increasing the quantity of the product and/or for disguising the existence of Cocaine. The invention provides preparing of the liquid street sample, taking an aliquot of said sample, its analysis with help of SFS (Spectral Fluorescence Signatures) technology, fixing the result of analysis as a reference value, the subsequent acidification of the liquid sample, taking an aliquot of the acidified liquid sample and its analysis with help of SFS technology, fixing the result of analysis and comparing said result with the reference value. The result of comparison enables to differentiate between Cocaine Base and Cocaine hydrochloride in the street sample.Type: GrantFiled: October 3, 2006Date of Patent: August 9, 2011Assignee: Nartest ASInventors: Sergey Babichenko, Tatjana Ivkina, Larisa Poryvkina, Vitaly Sominksky
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Publication number: 20110151570Abstract: The invention is provided for detection of Heroin and Morphine in illicit drug samples, also for their differentiation. A liquid sample from a street sample is prepared and divided into two equal aliquots, one of them being reference sample, another being main sample. Both samples are treated with Hydrochloric acid and Sodium hydroxide, but those substances are added to the samples in the different sequence. After that the measurement of SFS of the reference sample is performed. Further the presence of specific spectral pattern of Morphine in the measured SFS of the reference, sample is detected and the value of SFS intensity at the specific spectral point is fixed (a reference value). After 15 minutes for acidification of the main sample, the analogous measurement and detection of the Morphine in the main sample are performed.Type: ApplicationFiled: July 7, 2008Publication date: June 23, 2011Inventors: Sergey Babichenko, Tatjana Avkina, Larisa Poryvkina, Vitaly Sominsky
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Patent number: 7843556Abstract: The present invention discloses a portable, reliable, automated and simple device using Spectral Fluorescence Signature technology (SFS) for fast and accurate drug detection, quantification and data storage. The present also discloses a method for using Spectral Fluorescence Signature technology (SFS) for fast and accurate drug detection, quantification and data storage. Such device and method needing not highly skilled personnel or specific background to run the tests.Type: GrantFiled: May 13, 2004Date of Patent: November 30, 2010Assignee: NarTest ASInventors: Sergey Babichenko, Enn Erme, Tatjana Ivkina, Larisa Poryvkina, Vitaly Sominsky
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Patent number: 7763469Abstract: The invention provides a method for automatic encrypted marking of liquids and for identifying liquids marked by using this method. For marking certain number of markers is selected and for every marker a random number is generated, which define the amount of a marker used. Based on the number of markers, their measured concentrations and the relation of markers concentrations in the marked liquid, a specific marking code is compiled, characteristic only for this liquid. The marking code is encrypted and delivered to an authorized user. The encrypted marking code is decrypted and for identifying the liquid the original parameters contained in the marking code are compared with parameters actually measured on-site. This identification is carried out automatically in real time without any need for laboratory analyses, thus practically excluding human factor in both the marking and identification processes.Type: GrantFiled: March 15, 2005Date of Patent: July 27, 2010Assignee: AS Laser Diagnostic InstrumentsInventors: Sergey Babichenko, Alexander Dudelzak, Larisa Poryvkina
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Publication number: 20090321659Abstract: The invention is intended for illicit drug detection, preferably to Cocaine detection in street samples containing in addition to Cocaine also adulterants and/or diluents (also denominated as cutting agents) used for increasing the quantity of the product and/or for disguising the existence of Cocaine. The invention provides preparing of the liquid street sample, taking an aliquot of said sample, its analysis with help of SFS (Spectral Fluorescence Signatures) technology, fixing the result of analysis as a reference value, the subsequent acidification of the liquid sample, taking an aliquot of the acidified liquid sample and its analysis with help of SFS technology, fixing the result of analysis and comparing said result with the reference value. The result of comparison enables to differentiate between Cocaine Base and Cocaine hydrochloride in the street sample.Type: ApplicationFiled: October 3, 2006Publication date: December 31, 2009Inventors: Sergey Babichenko, Tatjana Ivkina, Larisa Poryvkina, Vitaly Sominksky
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Publication number: 20080192249Abstract: The present invention discloses a portable, reliable, automated and simple device using Spectral Fluorescence Signature technology (SFS) for fast and accurate drug detection, quantification and data storage. The present also discloses a method for using Spectral Fluorescence Signature technology (SFS) for fast and accurate drug detection, quantification and data storage. Such device and method needing not highly skilled personnel or specific background to run the tests.Type: ApplicationFiled: May 13, 2004Publication date: August 14, 2008Applicant: AS LASER DIAGNOSTIC INSTRUMENTS INTERNATIONAL, INC.Inventors: Sergey Babichenko, Enn Erme, Tatjana Ivkina, Larisa Paryvkina, Vitaly Sominsky
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Publication number: 20070178596Abstract: The invention provides a method for automatic encrypted marking of liquids and for identifying liquids marked by using this method. For marking certain number of markers is selected and for every marker a random number is generated, which define the amount of a marker used. Based on the number of markers, their measured concentrations and the relation of markers concentrations in the marked liquid, a specific marking code is compiled, characteristic only for this liquid. The marking code is encrypted and delivered to an authorized user. The encrypted marking code is decrypted and for identifying the liquid the original parameters contained in the marking code are compared with parameters actually measured on-site. This identification is carried out automatically in real time without any need for laboratory analyses, thus practically excluding human factor in both the marking and identification processes.Type: ApplicationFiled: March 15, 2005Publication date: August 2, 2007Inventors: Sergey Babichenko, Alexander Dudelzak, Larisa Poryvkina