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. . US

Patent application number	Description	Published
20160059215	MANGANESE OXIDES/GRAPHENE NANOCOMPOSITES, FILMS, MEMBRANES AND METHODS OF MAKING THE SAME - Graphene/manganese oxide-based structures (e.g., nanocomposites, films and membranes) are described herein, as well as methods of making the same.	03-03-2016

Iwamoto ., Seoul KR

Patent application number	Description	Published
20090295688	PLASMA DISPLAY APPARATUS AND METHOD OF DRIVING THE SAME - A plasma display apparatus and a method of driving the same are disclosed. The method includes assigning a predetermined number of sustain signals to each of subfields constituting a frame depending on weight values of the subfields, selecting some of combinations of the subfields, actually measuring a luminance of light emitted by the plasma display apparatus during a frame comprised of the selected subfield combination, normalizing a luminance corresponding to each subfield combination depending on the actually measured highest luminance to calculate a reference normalized gray level, and calculating an intermediate gray level between the reference normalized gray levels.	12-03-2009

Pradip ., Pune IN

Patent application number	Description	Published
20140056992	SUSPENSION OF NANOPARTICLES - A method for preparing suspension of inorganic nanoparticles is described herein. The method includes mixing a dispersing medium (	02-27-2014
20150048272	NANOFLUIDS FOR HEAT TRANSFER APPLICATIONS - According to an implementation of the present subject matter, a method for producing stable nanofluids is described. The method includes mixing of a base fluid with a dispersant and a metal oxide powder to form a primary mixture. The base fluid is a heat transfer fluid and the metal oxide powder includes particles of size greater than 100 nm. The method further includes grinding the primary mixture to obtain a concentrated nanoparticle suspension where the dispersant is added to the primary mixture during the grinding after every pre-determined time period.	02-19-2015

Samsudin ., Singapore SG

Patent application number	Description	Published
20100169102	LOW COMPLEXITY MPEG ENCODING FOR SURROUND SOUND RECORDINGS - The invention provides for the encoding of surround sound produced by any coincident microphone techniques with coincident-to-virtual microphone signal matrixing. An encoding scheme provides significantly lower computational demand, by deriving the spatial parameters and output downmixes from the coincident microphone array signals and the coincident-to-surround channel-coefficients matrix, instead of the multi-channel signals.	07-01-2010
20120163622	NOISE DETECTION AND REDUCTION IN AUDIO DEVICES - Methods and apparatuses for detection and reduction of wind noise in audio devices are disclosed. In an embodiment, a method includes acquiring and transforming the audio signals. Correlations from the transformed audio signals are computed. A cross correlation index is compared to a predetermined value to determine if a wind noise spectral content is present. In another embodiment, an apparatus includes an audio processing unit to receive non-decomposed audio signals, and an audio decomposition unit to receive the non-decomposed audio signals and to generate decomposed audio signals. A wind noise spectrum estimation unit receives non-decomposed audio signals and decomposed audio signals and identifies wind noise spectral components in at least one of the non-decomposed and decomposed audio signals. A wind noise spectrum reduction unit receives the wind noise spectral components and removes the wind noise spectral components from at least one of the non-decomposed and the decomposed audio signals.	06-28-2012
20130044894	SYSTEM AND METHOD FOR EFFICIENT SOUND PRODUCTION USING DIRECTIONAL ENHANCEMENT - A system and method for generating virtual microphone signals having a particular number and configuration for channel playback from an intermediate set of signals that were recorded in an initial format that is different from the channel playback format. In one embodiment, an initial set of intermediate are Bark-banded such that each intermediate signal may lead to a corresponding power spectral density (PSD) signal representative of the initial intermediate signal. Further, one may generate cross-correlations signals for each pair of intermediate signals. Next, from the PSDs and cross correlations, one may more efficiently calculate corresponding channel signals to be used for playback on respective channel speakers. Thus, the PSDs of each channel signal may be generated at chosen angles (as well as other design factors). Further, each channel signal may also be further modified with a corresponding cancellation signal that further enhances the resultant signal in each channel.	02-21-2013