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Nedeljko
Nedeljko Gvozdic, Gainesville, FL US
| Patent application number | Description | Published |
|---|---|---|
| 20090305024 | Reinforced, Laminated, Impregnated, and composite-like materials as cross-linked polyvinyl alcohol hydrogel structures - Reinforced, laminated, impregnated, and materials with composite properties as cross linked polyvinyl alcohol hydrogel structures in bulk or cellular matrix forms that can take essentially any physical shape, or can have essentially any size, degree of porosity and surface texture. They have a wide range of physical properties, unusual and unique combinations of physical properties and unique responses to stress fields, which allows for their use in many end use applications. | 12-10-2009 |
Nedeljko Krstajic, Belgrade YU
| Patent application number | Description | Published |
|---|---|---|
| 20080230381 | SYSTEM FOR THE ELECTROLYTIC PRODUCTION OF SODIUM CHLORATE - A system for the electrolytic production of sodium chlorate having a sodium chloride brine buffered with phosphate and having a reduced or zero chromium content is disclosed. The system comprises electrolytic cells of the undivided type with intercalated cathodes and anodes. The cathodes can comprise steel perforated sheets activated with a Fe—Mo alloy coating. | 09-25-2008 |
Nedeljko Krstajic, Belgrade RS
| Patent application number | Description | Published |
|---|---|---|
| 20110226627 | ELECTRODE SUITABLE AS HYDROGEN-EVOLVING CATHODE - The invention relates to a cathode for hydrogen evolution in electrolysis cells, for instance chlor-alkali cells or cells for producing chlorate or hypochlorite, obtained starting from a substrate of nickel or other conductive material galvanically coated with nickel co-deposited with an amorphous molybdenum oxide. | 09-22-2011 |
Nedeljko Miljic, Belleville CA
| Patent application number | Description | Published |
|---|---|---|
| 20110260005 | PARACHUTE GROUND DISCONNECTING DEVICE - A venturi passage for a steering gear assembly is provided that includes a rack bushing having an outer surface. A rack bushing main fluid channel extends circumferentially about the outer surface of the rack bushing. A steering gear housing is disposed at a distal end from the rack bushing. A rack tube sealingly engages the outer surface of the rack bushing. A portion of the rack tube overlaps the rack bushing main fluid channel of the rack bushing. The rack tube includes a first aperture extending through a wall of the rack tube and is in fluid communication with the rack bushing main fluid channel. A first fitting extends radially outward from the rack tube and is in fluid communication with the rack bushing main fluid channel through the first aperture. The rack bushing main channel maintains fluid communication between the first fitting and the rack bushing extended fluid channel. | 10-27-2011 |
Nedeljko Varnica, Sunnyvale, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20090150746 | ITERATIVE DECODER SYSTEMS AND METHODS - Systems and methods are provided for improved designs and performance for iterative decoder systems. In some embodiments, the iterative decoder may be decoupled from FIR samples through an FIR RAM, thus resulting in a less complex design and shorter processing times. In some embodiments, an intermediate memory may be used when passing information between the SOVA and LDPC of the iterative decoder. In some embodiments, the SOVA-required information may be continuously serialized from information received from the LDPC during each LDPC iteration. In some embodiments, the | 06-11-2009 |
| 20110087933 | POWER CONSUMPTION IN LDPC DECODER FOR LOW-POWER APPLICATIONS - This disclosure relates generally to low power data decoding, and more particularly to low power iterative decoders for data encoded with a low-density parity check (LDPC) encoder. Systems and methods are disclosed in which a low-power syndrome check may be performed in the first iteration or part of the first iteration during the process of decoding a LDPC code in an LDPC decoder. Systems and methods are also disclosed in which a control over the precision of messages sent or received and/or a change in the scaling of these messages may be implemented in the LDPC decoder. The low-power techniques described herein may reduce power consumption without a substantial decrease in performance of the applications that make use of LDPC codes or the devices that make use of low-power LDPC decoders. | 04-14-2011 |