Makhijani
Mahesh A. Makhijani, San Diego, CA US
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20090252118 | HANDOFF BETWEEN PACKET-SWITCHED NETWORK AND CIRCUIT-SWITCHED NETWORK - Techniques for supporting handoff of terminals between a packet-switched network and a circuit-switched network are described. In an aspect, handoff between packet-switched and circuit-switched networks may be facilitated by a designated network entity in the packet-switched network. The designated network entity may interface with both the packet-switched network and the circuit-switched network, perform circuit-switched call origination, and perform handoff procedure. In one design, a first terminal may communicate with the packet-switched network for a packet-switched call with a second terminal. The first terminal may initiate handoff to the circuit-switched network via the designated network entity. The first terminal may perform handoff from the packet-switched network to the circuit-switched network based on an inter-MSC handoff procedure. The first terminal may then communicate with the circuit-switched network for the circuit-switched call with the second terminal after the handoff. | 10-08-2009 |
20110235568 | REPEATER-ASSISTED MANAGEMENT OF MACRO NETWORK COVERAGE - A method of managing macro network coverage among a plurality of repeaters deployed to extend coverage of one or more base stations may include receiving feedback information from at least two repeaters indicative of macro network coverage at locations corresponding to each repeater, determining a coverage status of the macro network based on the feedback information, and sending a control signal to at least one repeater instructing the repeater to adjust one or more operating parameters based on the determined coverage status. | 09-29-2011 |
Michael A. Makhijani, Playa Vista, CA US
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20140143423 | METHOD AND APPARATUS FOR DATA TRAFFIC DISTRIBUTION AMONG INDEPENDENT PROCESSING CENTERS - A method and apparatus for assigning processing requests is disclosed. The method is typically used in a processing system comprising a first processing center and one or more second processing centers remote from the first processing center, a. A method of assigning a processing request may comprise the steps of: determining at a traffic distribution controller a capacity of each of the processing centers to process the processing request, accepting a processing request in the first processing center, and assigning the processing request to at least one of the second processing centers according to the determined current capacity of each of the processing centers. The processing request is initially addressed to a first global address of the first processing center, then the processing request is readdressed to a second global address of one of the second processing centers. | 05-22-2014 |
Rajiv Naresh Makhijani, Saratoga, CA US
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20140365890 | Media Player Operating in Multiple Modes - In one embodiment, a method plays, on an interface, a media program in a media player operating in a first mode. A position change of the media player on the interface is determined while the media program is being played in the media player to cause the media player to move to an out of bounds position. The method detects the media player moving to the out of bounds position and upon detecting, automatically performs switching from the first mode to a second mode based on the media player moving to the out of bounds position where the second mode restricts movement of the media player. Also, the method transfers the media player to a new position that is not in the out of bounds position where the media player continues to play the media program in the new position. | 12-11-2014 |
Vikram Makhijani, Vallejo, CA US
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20150015846 | Directional Optical Coherence Tomography Systems and Methods - An optical coherence tomography system that includes an optical device having an adjustable optical element configured to displace a pupil entry point of light is provided. Optical coherence tomography methods using the optical coherence tomography system are also provided. The subject optical coherence tomography systems and methods find use in a variety of different applications, including imaging applications. | 01-15-2015 |
Vinod B. Makhijani, Guilford, CT US
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20110201526 | BEAD EMULSION NUCLEIC ACID AMPLIFICATION - Disclosed are methods for nucleic acid amplification wherein nucleic acid templates, beads, and amplification reaction solution are emulsified and the nucleic acid templates are amplified to provide clonal copies of the nucleic acid templates attached to the beads. Also disclosed are kits and apparatuses for performing the methods of the invention. | 08-18-2011 |
20130078638 | Bead Emulsion Nucleic Acid Amplification - Disclosed are methods for nucleic acid amplification wherein nucleic acid templates, beads, and amplification reaction solution are emulsified and the nucleic acid templates are amplified to provide clonal copies of the nucleic acid templates attached to the heads. Also disclosed are kits and apparatuses for performing the methods of the invention. | 03-28-2013 |
20140162885 | Bead Emulsion Nucleic Acid Amplification - Disclosed are methods for nucleic acid amplification wherein nucleic acid templates, beads, and amplification reaction solution are emulsified and the nucleic acid templates are amplified to provide clonal copies of the nucleic acid templates attached to the beads. Also disclosed are kits and apparatuses for performing the methods of the invention. | 06-12-2014 |
Vinod Bhagwan Makhijani, Guilford, CT US
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20110287432 | SYSTEM AND METHOD FOR TAILORING NUCLEOTIDE CONCENTRATION TO ENZYMATIC EFFICIENCIES IN DNA SEQUENCING TECHNOLOGIES - An embodiment of a method for optimizing sequencing performance is described that comprises the steps of calculating a nucleotide species specific degradation rate of an apyrase enzyme for a plurality of nucleotide species; determining a concentration for each of the nucleotide species using the nucleotide species specific degradation rate; iteratively providing the concentration of each of the nucleotide species in a reaction environment comprising a polymerase enzyme and a species of template nucleic acid molecule, wherein one or more molecules of the nucleotide species are incorporated into a nascent molecule in a sequencing reaction and the apyrase enzyme is introduced to the reaction environment to degrade unincorporated nucleotide species molecules; and detecting a signal in response to the incorporation of the nucleotide species. | 11-24-2011 |