Blonski
Axel Blonski, Heidelberg DE
Patent application number | Description | Published |
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20090021479 | Device for Extracting Data by Hand Movement - The invention relates to a hand receiver ( | 01-22-2009 |
Casimir Blonski, Ramonville FR
Patent application number | Description | Published |
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20090137532 | Aldolase-inhibiting aromatic compounds - The invention relates to novel aldolase-inhibiting compounds that can be advantageously used as medicaments (in therapeutic doses), especially for treating certain cancers, due to the inhibition efficacy thereof. An inventive compound corresponds to general formula (I) wherein the aldehyde group (—CHO) and the phenol group (—OH) are linked to two carbon atoms adjacent to the same aromatic chain, i.e., the first aromatic chain, and R is a phosphate group or a phosphate group mimetic linked to a carbon atom of the second aromatic chain. | 05-28-2009 |
Pawel Blonski, Zielona Gora PL
Patent application number | Description | Published |
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20120287251 | DISPLAY MATRIX CONTROLLER AND A METHOD FOR CONTROLLING A DISPLAY MATRIX - One object of the invention is a display matrix controller configured to drive a display matrix ( | 11-15-2012 |
20120300030 | DIGITAL VIDEO SIGNAL, A METHOD FOR ENCODING OF A DIGITAL VIDEO SIGNAL AND A DIGITAL VIDEO SIGNAL ENCODER - One object of the invention is a digital video signal comprising a sequence of frames, wherein each video frame in the sequence differs with respect to the previous frame in the sequence by a number of pixels which is not higher than a predetermined pixels maximum threshold amount. Another object of the invention is a method for encoding of a digital source video signal, comprising the steps of receiving a reference frame, receiving a source frame of the source video signal, generating an encoded frame based on the differences between the source frame and the reference frame, wherein the generating of the encoded frame comprises the steps of determining a pixels maximum threshold amount, comparing the reference frame with the source frame and selecting a number of pixels from the pixels which differ between the reference frame and the source frame, the number of selected pixels being not higher than the pixels maximum threshold amount, changing the values of the selected pixels of the reference frame to the values of corresponding pixels of the source frame to provide a reference frame for the next source frame and providing an encoded frame defining pixels changed in the reference frame. | 11-29-2012 |
Robert P. Blonski, North Royalton, OH US
Patent application number | Description | Published |
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20130104980 | Low-Melting Lead-Free Bismuth Sealing Glasses | 05-02-2013 |
20130111953 | Hermetic Sealing of Glass Plates - Durable hermetic seals between two inorganic substrates are produced using a high-intensity electromagnetic energy source, such as laser, to heat and seal enamel layers with controlled absorption of high-intensity energy source. Durable hermetic seals incorporating electrical feedthroughs are also produced. | 05-09-2013 |
20130164466 | Hermetically Sealed Electronic Device Using Coated Glass Flakes - A glass-flake loaded organic sealant system is useful for sealing active layers such as those in electronic devices and solar cells. | 06-27-2013 |
20130206230 | Hermetically Sealed Electronic Device Using Solder Bonding - Solder can be used to wet and bind glass substrates together to ensure a hermetic seal that superior (less penetrable) than conventional polymeric (thermoplastic or thermoplastic elastomer) seals in electric and electronic applications. | 08-15-2013 |
20140026619 | Formation Of Glass-Based Seals Using Focused Infrared Radiation - Broadband infrared radiation is used to heat and fuse an enamel paste to form an enamel seal between at least two solid substrates such as glass, ceramic or metal. | 01-30-2014 |
20140261975 | Microwave Sealing Of Inorganic Substrates Using Low Melting Glass Systems - A frit-based hermetic sealing system for sealing glass plates to one another, or sealing glass to ceramics is disclosed. Seal materials, the methods to apply these seal materials, and the seal designs for selective and controlled absorption of microwave energy to heat and seal the system are presented. The hermetic seals are useful in various applications such as (a) encapsulating solar cells based on silicon, organic systems, and thin film, (b) encapsulating other electronic devices such as organic LEDs, (c) producing Vacuum Insulated Glass windows, and (d) architectural windows and automotive glass. | 09-18-2014 |