Dhodapkar, US
Amit A. Dhodapkar, Cupertino, CA US
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20080320222 | Adaptive caching in broadcast networks - Adaptive caching techniques are described. In an implementation, a head end defines a plurality of cache periods having associated criteria. Request data for content is obtained and utilized to associate the content with the defined cache periods based on a comparison of the request data with the associated criteria. Then, the content is cached at the head end for the associated cache period. | 12-25-2008 |
20090097530 | Hybrid channel map - A hybrid channel map is described. In an implementation, a client obtains a plurality of channel maps, each from a respective one of a plurality of content providers that are configured to provide content via channels to the client. A hybrid channel map is formed from the plurality of channel maps. | 04-16-2009 |
Ashutosh S. Dhodapkar, Fremont, CA US
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20090024838 | MECHANISM FOR SUPPRESSING INSTRUCTION REPLAY IN A PROCESSOR - A mechanism for suppressing instruction replay includes a processor having one or more execution units and a scheduler that issue instruction operations for execution by the one or more execution units. The scheduler may also cause instruction operations that are determined to be incorrectly executed to be replayed, or reissued. In addition, a prediction unit within the processor may predict whether a given instruction operation will replay and to provide an indication that the given instruction operation will replay. The processor also includes a decode unit that may decode instructions and in response to detecting the indication, may flag the given instruction operation. The scheduler may further inhibit issue of the flagged instruction operation until a status associated with the flagged instruction is good. | 01-22-2009 |
20090319727 | Efficient Load Queue Snooping - In one embodiment, a processor comprises a data cache and a load/store unit (LSU). The LSU comprises a queue and a control unit, and each entry in the queue is assigned to a different load that has accessed the data cache but has not retired. The control unit is configured to update the data cache hit status of each load represented in the queue as a content of the data cache changes. The control unit is configured to detect a snoop hit on a first load in a first entry of the queue responsive to: the snoop index matching a load index stored in the first entry, the data cache hit status of the first load indicating hit, the data cache detecting a snoop hit for the snoop operation, and a load way stored in the first entry matching a first way of the data cache in which the snoop operation is a hit. | 12-24-2009 |
Chinmay S. Dhodapkar, San Diego, CA US
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20100260038 | METHODS AND DEVICES FOR RESTORING SESSION STATE - Methods, systems and devices are provided for restoring a multiple call session. A communication terminal can restore a multiple call session after a fault. A network interface can couple the terminal to a network including multiple access terminals associated with the multiple call session. A request for a state of the multiple call session can be transmitted and received by a server in the network. A response including the state can be received. The multiple call session can be restored based on the state of the multiple call session and other information. | 10-14-2010 |
20120289227 | GESTURE-BASED COMMANDS FOR A GROUP COMMUNICATION SESSION ON A WIRELESS COMMUNICATIONS DEVICE - In an embodiment, a user equipment (UE) detects that a user has made a pre-defined gesture that is associated with setting up a group communication session (GCS) with a communication group. The UE transmits a call request message to an application server to request set-up of the GCS. In another embodiment, the UE receives a user input requesting the UE to monitor for gestures by a user of the UE during the GCS. The UE then monitors one or more sensors during the GCS to detect whether the user of the UE has made a pre-defined gesture. In another embodiment, during the GCS, the UE detects that the user has made a pre-defined gesture, maps the detected gesture to a gesture-based command associated with transitioning the UE's floor-holder status and then transmits a request to facilitate the floor-holder status transition to the application server in accordance with the gesture-based command. | 11-15-2012 |
20130303130 | SEAMLESS IN-CALL VOICE NOTES - The disclosure relates to seamlessly generating an in-call voice note. An embodiment of the disclosure conducts a call with a target wireless subscriber device, transmits, to the target wireless subscriber device, an indication to start recording a portion of the call, and transmits, to the target wireless subscriber device, an indication to stop recording the portion of the call. Another embodiment of the disclosure conducts a call with an originator wireless subscriber device, receives, from the originator wireless subscriber device, an indication to start recording a portion of the call, and receives, from the originator wireless subscriber device, an indication to stop recording the portion of the call. | 11-14-2013 |
Kavita Dhodapkar, New Haven, CT US
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20120207775 | Immunogenic Epitopes as Targets for Universal Cancer Vaccines - The present invention provides a peptide having an amino acid sequence as set forth in SEQ ID NOs: 1 through 95 and any combination thereof. The peptide or combination of peptides possess OCT4 specific inducibility. The peptide or combination of peptides can further be used as a vaccine. | 08-16-2012 |
Madhav Dhodapkar, New Haven, CT US
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20120207775 | Immunogenic Epitopes as Targets for Universal Cancer Vaccines - The present invention provides a peptide having an amino acid sequence as set forth in SEQ ID NOs: 1 through 95 and any combination thereof. The peptide or combination of peptides possess OCT4 specific inducibility. The peptide or combination of peptides can further be used as a vaccine. | 08-16-2012 |
20140134662 | GENETICALLY MODIFIED NON-HUMAN ANIMALS AND METHODS OF USE THEREOF - Genetically modified non-human animals are provided that may be used to model human hematopoietic cell development, function, or disease. The genetically modified non-human animals comprise a nucleic acid encoding human IL-6 operably linked to an IL-6 promoter. In some instances, the genetically modified non-human animal expressing human IL-6 also expresses at least one of human M-CSF, human IL-3, human GM-CSF, human SIRPa or human TPO. In some instances, the genetically modified non-human animal is immunodeficient. In some such instances, the genetically modified non-human animal is engrafted with healthy or diseased human hematopoietic cells. Also provided are methods for using the subject genetically modified non-human animals in modeling human hematopoietic cell development, function, and/or disease, as well as reagents and kits thereof that find use in making the subject genetically modified non-human animals and/or practicing the subject methods. | 05-15-2014 |
Madhav V. Dhodapkar, New York, NY US
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20090175890 | USE OF IMMATURE DENDRITIC CELLS TO SILENCE ANTIGEN SPECIFIC CD8+ T CELL FUNCTION - This invention provides methods for silencing a pre-existing immune response in a mammal, as for example, in the setting of autoimmune diseases. The method comprises administering to a mammal immature dendritic cells which have been contacted in vitro with an antigen, or to target the antigen to immature dendritic cells in vivo, in order to silence and/or suppress a pre-existing CD8+ T cell immune response and induce IL-10 producing CD8+ T cells in said mammal. This invention further relates to methods for propagating immature dendritic cells, for maintaining immaturity by modification ex vivo, and uses thereof, including generation of regulatory T cells for passive immunotherapy. The present invention also relates to compositions and kits comprising immature dendritic cells and antigens. | 07-09-2009 |
Shrikant Dhodapkar, Lake Jackson, TX US
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20100240818 | Impact Modification of Thermoplastics with Ethylene/Alpha-Olefin Interpolymers - Impact modified compositions having good impact performance can be made from a thermoplastic (e.g., a polyolefin such as polypropylene or HDPE) and a multi-block ethylene/α-olefin interpolymer. The compositions are easily molded and often have particular utility in making, for example, automotive facia, parts and other household articles. | 09-23-2010 |
20130018150 | Impact Modification of Thermoplastics with Ethylene/Alpha-Olefin Interpolymers - Impact modified compositions having good impact performance can be made from a thermoplastic (e.g., a polyolefin such as polypropylene or HDPE) and a multi-block ethylene/α-olefin interpolymer. The compositions are easily molded and often have particular utility in making, for example, automotive facia, parts and other household articles. | 01-17-2013 |
20130101852 | COATED POLYMERIC PARTICULATES, AND A PROCESS FOR COATING POLYMERIC PARTICULATES - The instant invention provides coated polymeric particulates, and a method for producing polymeric particulates. The coated polymeric particulates according to the present invention comprise (a) one or more polymeric particulates; and (b) a coating composition present on at least a portion of at least one surface of said polymeric particulate, wherein said coating composition comprises a dispersion comprising: (1) one or more base polymers, (2) one or more stabilizing agents; (3) one or more biocide agents; (4) one or more neutralizing agents; and (5) water. | 04-25-2013 |
Shrikant V. Dhodapkar, Lake Jackson, TX US
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20110008623 | COAT POLYMERIC PARTICULATE, AND A PROCESS FOR COATING A POLYMERIC PARTICULATE - The instant invention is a coated polymeric particulate, and a process for coating a polymeric particulate. The coated polymeric particulate includes a polymeric particulate; and a coating composition present on at least a portion of at least one surface of the polymeric particulate. The coating includes an interconnected media; and at least one discrete island at least partially embedded in the interconnected media. The process for coating a polymeric particulate includes the following steps: (1) selecting a polymeric particulate; (2) selecting an aqueous dispersion comprising (a) a small particle component, wherein the small particle component comprises a polyolefin polymer having an average particle size in the range of 0.02 to 0.15 μm; (b) a large particle component, wherein the large particle component comprises a polyolefin polymer having an average particle size in the range of 0.3 to 0.8 μm; and (c) water; (3) applying the aqueous dispersion to the polymeric particulate; (4) thereby coating the polymeric particulate. | 01-13-2011 |