Nanjundaswamy
Ananda K. Nanjundaswamy, Vicksburg, MS US
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20140271705 | NUTRACEUTICAL COMPOSITIONS PRODUCED FROM CO-PRODUCTS OF CORN OR MILO ETHANOL FERMENTATION AND METHODS OF MAKING AND USING THEREOF - Described herein is a process for producing nutraceutical compositions that includes fermenting a species of | 09-18-2014 |
20140273106 | EFFICIENT PROCESS FOR PRODUCING SACCHARIDES AND ETHANOL FROM A BIOMASS FEEDSTOCK - Described herein is a process for producing saccharides and ethanol from biomass feedstock that includes (a) producing an enzyme composition by culturing a fungal strain(s) in the presence of a lignocellulosic medium, (b) using the enzyme composition to saccharify the biomass feedstock, and (c) fermenting the saccharified biomass feedstock to produce ethanol. The process is scalable and, in certain aspects, is capable of being deployed on farms, thereby allowing local production of saccharides and ethanol and resulting in a reduction of energy and other costs for farm operators. Optional steps to improve the biomass-to-fuel conversion efficiency are also contemplated, as are uses for byproducts of the process described herein. | 09-18-2014 |
Kirakodu Nanjundaswamy, Potomac Falls, VA US
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20150194666 | METHODS OF MAKING METAL-DOPED NICKEL OXIDE ACTIVE MATERIALS - Methods of making high-energy cathode active materials for primary alkaline batteries are described. The primary batteries include a cathode having an alkali-deficient nickel(IV)-containing oxide including one or more metals such as Co, Mg, Al, Ca, Y, Mn, and/or non-metals such as B, Si, Ge or a combination of metal and/or non-metal atoms as dopants partially substituted for Ni and/or Li in the crystal lattice; an anode; a separator between the cathode and the anode; and an alkaline electrolyte solution. | 07-09-2015 |
Kirakodu S. Nanjundaswamy, Potomac Falls, VA US
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20130004838 | NON-AQUEOUS ELECTROCHEMICAL CELLS - Electrochemical cells are disclosed. In some embodiments, an electrochemical cell includes an electrolyte that contains a bis(oxalato)borate salt. | 01-03-2013 |
20130036603 | PRIMARY ALKALINE BATTERY - A primary battery includes a cathode having a non-stoichiometric metal oxide including transition metals Ni, Mn, Co, or a combination of metal atoms, an alkali metal, and hydrogen; an anode; a separator between the cathode and the anode; and an alkaline electrolyte. | 02-14-2013 |
20130247363 | METHODS OF MAKING METAL-DOPED NICKEL OXIDE ACTIVE MATERIALS - Methods of making high-energy cathode active materials for primary alkaline batteries are described. The primary batteries include a cathode having an alkali-deficient nickel(IV)-containing oxide including one or more metals such as Co, Mg, Al, Ca, Y, Mn, and/or non-metals such as B, Si, Ge or a combination of metal and/or non-metal atoms as dopants partially substituted for Ni and/or Li in the crystal lattice; an anode; a separator between the cathode and the anode; and an alkaline electrolyte solution. | 09-26-2013 |
20130252085 | METAL-DOPED NICKEL OXIDE ACTIVE MATERIALS - A primary battery includes a cathode having an alkali-deficient nickel oxide including metals such as Ca, Mg, Al, Co, Y, Mn, and/or non-metals such as B, Si, Ge, or a combination of metal and/or non-metal atoms; a combination of metal atoms; an anode; a separator between the cathode and the anode; and an alkaline electrolyte. | 09-26-2013 |
20130252108 | METAL-DOPED NICKEL OXIDE ACTIVE MATERIALS - A primary alkaline battery includes a cathode having an alkali-deficient nickel (IV)-containing oxide including metals such as Ni, Co, Mg, Al, Ca, Y, Mn, and/or non-metals such as B, Si, Ge or a combination of metal and/or non-metal ions as stabilizing dopants; a combination of metal ions as dopants; an anode; a separator between the cathode and the anode; and an alkaline electrolyte. The battery can be pre-discharged within one hour after assembly to decrease the open circuit voltage. | 09-26-2013 |
Kirakodu S. Nanjundaswamy, Sterling, VA US
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20140308192 | CATHODE MATERIALS FOR SECONDARY (RECHARGEABLE) LITHIUM BATTERIES - The invention relates to materials for use as electrodes in an alkali-ion secondary (rechargeable) battery, particularly a lithium-ion battery. The invention provides transition-metal compounds having the ordered-olivine or the rhombohedral NASICON structure and the polyanion (PO | 10-16-2014 |
Kirakodu Seetharama Nanjundaswamy, Potomac Falls, VA US
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20130323607 | SECONDARY ELECTROCHEMICAL CELLS WITH SEPARATOR AND ELECTROLYTE COMBINATION - A secondary electrochemical cell comprises an anode, a cathode including electrochemically active cathode material, a separator between the anode and the cathode, and an electrolyte. The electrolyte comprises at least one salt dissolved in at least one organic solvent. The separator in combination with the electrolyte has an area-specific resistance of less than about 2 ohm-cm | 12-05-2013 |
Tejaswi Nanjundaswamy, Goleta, CA US
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20140052439 | METHOD AND APPARATUS FOR POLYPHONIC AUDIO SIGNAL PREDICTION IN CODING AND NETWORKING SYSTEMS - A method, device, and apparatus provide the ability to predict a portion of a polyphonic audio signal for compression and networking applications. The solution involves a framework of a cascade of long term prediction filters, which by design is tailored to account for all periodic components present in a polyphonic signal. This framework is complemented with a design method to optimize the system parameters. Specialization may include specific techniques for coding and networking scenarios, where the potential of each enhanced prediction is realized to considerably improve the overall system performance for that application. One specific technique provides enhanced inter-frame prediction for the compression of polyphonic audio signals, particularly at low delay. Another specific technique provides improved frame loss concealment capabilities to combat packet loss in audio communications. | 02-20-2014 |
20150063445 | METHOD AND APPARATUS FOR LAYERED COMPRESSION OF MULTIMEDIA SIGNALS FOR STORAGE AND TRANSMISSION OVER HETEROGENEOUS NETWORKS - A method and apparatus provide the ability to code signals in a layered manner for compression and networking applications. The solution involves a relaxed hierarchical structure of layers, wherein only an optimal subset of information from lower quality levels is transmitted to higher level decoders. This framework is complemented with a design method to optimize system parameters. Specialization may include techniques for employing irregular quantizers and/or estimation theoretic optimal parameter selection and/or content specific optimization (e.g., exploiting harmonic structure in audio, adaptive transform coding and enhanced motion compensated prediction for video) and/or optimization of the structure of the layers, where the potential of exploiting all the common information is realized to improve overall system performance for that application. One specific technique provides improved compression of signals with multiple quality levels with or without prediction. Another specific technique provides improved compression of signals with multiple heterogeneous quality-levels with or without prediction. | 03-05-2015 |