Shah, Los Angeles
Anish Narendra Shah, Los Angeles, CA US
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20090310724 | INTERFERENCE MITIGATION FOR DEVICES WITH MULTIPLE RECEIVERS - Methods and systems for mitigating interference or estimating a covariance matrix in a communication system are disclosed. In some embodiments, a method of demodulating a received signal in a communication system includes receiving a first plurality of waveforms, estimating a covariance matrix based on the first plurality of waveforms, determining a spatial filter based on the estimated covariance matrix, receiving a second plurality of waveforms, generating at least one filtered waveform by applying the spatial filter to the second plurality of waveforms, and demodulating the at least one filtered waveform. | 12-17-2009 |
20090312043 | INTERFERENCE MITIGATION FOR DEVICES WITH MULTIPLE RECEIVERS - Methods and systems for mitigating interference or estimating a covariance matrix in a communication system are disclosed. In some embodiments, a method of demodulating a received signal in a communication system includes receiving a first plurality of waveforms, estimating a covariance matrix based on the first plurality of waveforms, determining a spatial filter based on the estimated covariance matrix, receiving a second plurality of waveforms, generating at least one filtered waveform by applying the spatial filter to the second plurality of waveforms, and demodulating the at least one filtered waveform. | 12-17-2009 |
20100303182 | WIDEBAND INTERFERENCE MITIGATION FOR DEVICES WITH MULTIPLE RECEIVERS - Certain disclosed embodiments pertain to suppressing interference in a wireless communication system. For example, a method of suppressing interference can include receiving one or more first signals including components from a plurality of sub-channels. Each of the first signals can be converted into a respective plurality of first sub-band frequency components. A respective spatial filter can be determined for each frequency sub-band using one or more corresponding first sub-band components for each respective spatial filter. One or more second signals including components from the plurality of sub-channels can be received. Each of the second signals can be converted into a respective plurality of second sub-band frequency components. A corresponding plurality of filtered sub-band components can be generated by applying the respective spatial filters to the corresponding second sub-band components for each of the second signals. | 12-02-2010 |
20140051378 | WIDEBAND INTERFERENCE MITIGATION FOR DEVICES WITH MULTIPLE RECEIVERS - Certain disclosed embodiments pertain to suppressing interference in a wireless communication system. For example, a method of suppressing interference can include receiving one or more first signals including components from a plurality of sub-channels. Each of the first signals can be converted into a respective plurality of first sub-band frequency components. A respective spatial filter can be determined for each frequency sub-band using one or more corresponding first sub-band components for each respective spatial filter. One or more second signals including components from the plurality of sub-channels can be received. Each of the second signals can be converted into a respective plurality of second sub-band frequency components. A corresponding plurality of filtered sub-band components can be generated by applying the respective spatial filters to the corresponding second sub-band components for each of the second signals. | 02-20-2014 |
20140369449 | INTERFERENCE MITIGATION FOR DEVICES WITH MULTIPLE RECEIVERS - Methods and systems for mitigating interference or estimating a covariance matrix in a communication system are disclosed. In some embodiments, a method of demodulating a received signal in a communication system includes receiving a first plurality of waveforms, estimating a covariance matrix based on the first plurality of waveforms, determining a spatial filter based on the estimated covariance matrix, receiving a second plurality of waveforms, generating at least one filtered waveform by applying the spatial filter to the second plurality of waveforms, and demodulating the at least one filtered waveform. | 12-18-2014 |
Gaurav Shah, Los Angeles, CA US
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20150148549 | DISPOSABLE WORLD-TO-CHIP INTERFACE FOR DIGITAL MICROFLUIDICS - The present disclosure sets forth incorporating microfluidic chips Interfaces for use with digital microfluidic processes. Methods and devices according to the present disclosure utilize compact, integrated platforms that interface with a chip upstream and downstream of the reaction, as well as between intermediate reaction steps if needed. In some embodiments these interfaces are automated, including automation of a multiple reagent process. Various reagent delivery systems and methods are also disclosed. | 05-28-2015 |
Gaurav Jitendra Shah, Los Angeles, CA US
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20090283407 | METHOD FOR USING MAGNETIC PARTICLES IN DROPLET MICROFLUIDICS - Methods of utilizing magnetic particles or beads (MBs) in droplet-based (or digital) microfluidics are disclosed. The methods may be used in enrichment or separation processes. A first method employs the droplet meniscus to assist in the magnetic collection and positioning of MBs during droplet microfluidic operations. The sweeping movement of the meniscus lifts the MBs off the solid surface and frees them from various surface forces acting on the MBs. A second method uses chemical additives to reduce the adhesion of MBs to surfaces. Both methods allow the MBs on a solid surface to be effectively moved by magnetic force. Droplets may be driven by various methods or techniques including, for example, electrowetting, electrostatic, electromechanical, electrophoretic, dielectrophoretic, electroosmotic, thermocapillary, surface acoustic, and pressure. | 11-19-2009 |
20120264932 | DIGITAL MICROFLUIDIC PLATFORM FOR RADIOCHEMISTRY - Disclosed herein are methods of performing microchemical reactions and electro- wetting-on-dielectric devices (EWOD devices) for use in performing those reactions. These devices and method are particularly suited for preparing radiochemical compounds, particularly compounds containing | 10-18-2012 |
Neil Pravin Shah, Los Angeles, CA US
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20100029676 | T315A AND F317I MUTATIONS OF BCR-ABL KINASE DOMAIN - The present invention relates to mutant BCR-ABL kinase proteins, and to diagnostic and therapeutic methods and compositions useful in the management of disorders, for example cancers, involving cells that express such mutant BCR-ABL kinase proteins. | 02-04-2010 |
Prediman Shah, Los Angeles, CA US
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20090202555 | ANTIBODIES AGAINST A PEPTIDE EPITOPE OF APOLIPOROTEIN B - The present invention relates to antibodies raised against fragments of apolipoprotein B, in particular defined peptides thereof, for immunization or therapeutic treatment of mammals, including humans, against ischemic cardiovascular diseases, using one or more of said antibodies. | 08-13-2009 |
Sheel Mukesh Shah, Los Angeles, CA US
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20140038195 | MULTIPLEXING AND QUANTIFICATION IN PCR WITH REDUCED HARDWARE AND REQUIREMENTS - Methods and algorithms for a multiplexed single detection channel amplification process and quantification of generated amplicons is presented. Various mathematical approaches for quantifying and verifying the amplicons in a reaction are presented. Usage of such methods and approaches allow upgrading of existing single and multiple channel instruments for further multiplexing capabilities. | 02-06-2014 |
Sonar Shah, Los Angeles, CA US
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20090005758 | GUIDE CATHETER - An elongated sheath of a guide catheter includes a fully radiopaque and echogenic distal tip having a length greater than approximately 0.08 inch. | 01-01-2009 |
20100160772 | Adaptable Image Guided Delivery System - A navigation element for delivery of a therapy delivery system and method of enabling navigation of a therapy delivery system. The navigation element for a therapy delivery system comprises a flexible elongate tubular sheath having a lumen extending longitudinally therethrough, the lumen of the tubular body being sized to fit over a catheter; and an electromagnetic receiver assembly within the tubular body, the receiver assembly comprising a receiver coil and a conductor coupled to the receiver coil, the conductor coupled to the receiver coil and extending towards a proximal end of the tubular sheath. | 06-24-2010 |