Sriram
Kailash Nath Sriram, Northgate AU
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20120270162 | COMBUSTION CONTROL SYSTEM - A combustion control system, including a first set of sensors for generating sample data including data representing a sequence of detected images of different samples of a fuel made up of solid particles; a fuel analysis module for controlling a processor of a computing device to: (i) determine attributes for one or more predetermined physical characteristics of the particles in each said sample based on the sample data, and (ii) generate an index value for each said sample based on said attributes, said index value representing a level of combustibility of the particles in each said sample; and a combustion control module for controlling a processor of a computing device to adjust one or more parameters for controlling a combustion process based on changes to said index value over time. | 10-25-2012 |
K.k. Sriram, Taipei TW
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20140120522 | NANOFLUIDIC DEVICES FOR SINGLE-MOLECULE ANALYSIS OF PROTEIN-DNA COMPLEX - A device for optical mapping of protein binding sites, in particular, transcription factor binding sites, on single DNA molecules, includes an insulating substrate having two parallel channels and at least one slit connecting the two channels, a coverslip on the substrate, at least two reservoirs on the substrate connecting the channels of the insulating substrate, and at least two electrodes in the reservoirs. When the reservoirs are filled with a buffer solution, the electrodes are in electrical contact in the buffer solution. | 05-01-2014 |
Krishnan Sriram, Cape Town ZA
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20140302492 | METHOD OF DETECTING AND/OR QUALIFYING AN ANALYTE IN A BIOLOGICAL SAMPLE - An aptamer-based SERS detection technique that directly monitors an aptamer-analyte capture event by generating spectroscopic information regarding the identity of the analyte that has been bound to the aptamer from a complex biological sample. A reproducible SERS spectrum is measured for an aptamer-analyte complex formed on a metal surface and this spectral information is used directly to identify the specific aptamer-analyte complex and optionally also to quantify the analyte in the sample, thus enabling discrimination between true and false positives in quantitative analyte assays on complex biological samples. In one embodiment the aptamer is attached directly to the metal surface and surrounded by a self-assembled monolayer (SAM) of amphiphilic molecules. In an alternative embodiment the metal surface is coated with a SAM and the aptamer is attached to the amphiphilic molecules of the SAM. | 10-09-2014 |