Gayatri
Gayatri Bhimaraju, Cupertino, CA US
Patent application number | Description | Published |
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20110016527 | Real-time network updates for malicious content - A global response network collects, analyzes, and distributes “cross-vector” threat-related information between security systems to allow for an intelligent, collaborative, and comprehensive real-time response. | 01-20-2011 |
20130332552 | REAL-TIME NETWORK UPDATES FOR MALICIOUS CONTENT - A global response network collects, analyzes, and distributes “cross-vector” threat-related information between security systems to allow for an intelligent, collaborative, and comprehensive real-time response. | 12-12-2013 |
Gayatri Ve, Bangalore IN
Patent application number | Description | Published |
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20140106790 | Paging Optimization in Small Cell Networks Using Gateways - A method includes receiving from a core network entity a paging message including a permanent user identity of a user for a specific user equipment, and determining, using the permanent user identity, a set of small cells to which the paging message should be sent based on a small cell last visited by the specific user equipment and small cells that are neighbors to the last-visited small cell. The paging message, without the permanent user identity, is sent to the determined set of small cells. Another method includes, responsive to determining a paging message for a specific user equipment is to be communicated toward the specific user equipment, determining whether a gateway can receive paging messages comprising a permanent user identity and a temporary user identity, and responsive thereto, sending the paging message for the specific user equipment to the gateway. Apparatus and computer program products are also disclosed. | 04-17-2014 |
Gayatri Vengayil, St. Louis, MO US
Patent application number | Description | Published |
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20150310179 | SYSTEM AND METHOD THAT APPLIES RELATIONAL AND NON-RELATIONAL DATA STRUCTURES TO MEDICAL DIAGNOSIS - A medical diagnosis system comprises one or more databases configured to store a plurality of relational tables within a relational data structure and a non-relational table within a non-relational data structure. The plurality of relational tables comprise a symptom table configured to associate a plurality of symptoms having symptom name fields with a corresponding plurality of symptom identifier fields (Symptom ID). A cause table is configured to associate a plurality of causes having caused name fields with a corresponding plurality of cause identifier fields (Cause ID). A symptom-cause relational table is linked to the symptom table and the cause table to associate the plurality of cause identifier fields with the plurality of symptom identifier fields. The plurality of symptom identifier fields comprise first foreign keys that link the symptom table to the symptom-cause relational table. The plurality of symptom identifier fields comprise second foreign keys that link the cause table to the symptom-cause relational table. One or more processors provide interfaces for receiving one or more symptom names and presenting one or more cause names based on associations of symptom names and cause names in the non-relational table. The associations of symptom names and cause names in the non-relational table are derived from mapping the plurality of cause name fields in the cause table and the plurality of symptom name fields in the symptom table into the non-relational table. The mapping being based on the association of the plurality of cause identifier fields with the plurality of symptom identifier fields in the symptom-cause relational table. | 10-29-2015 |