Patents by Inventor Nayyar Azam Khan Rao
Nayyar Azam Khan Rao has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20220406195Abstract: Disclosed are methods, systems, and one or more computer-readable mediums for receiving, at an edge device from an external server, a rules database comprising a set of rules; receiving, by the edge device, first data from at least one device; processing, by the edge device, the received first data by comparing the received data to each rule among the set of rules; identifying a first triggering event in response to detecting a match between the received data and a rule of the rules database; and outputting an alert corresponding to the first triggering event.Type: ApplicationFiled: March 25, 2022Publication date: December 22, 2022Inventors: Kirupakar JANAKIRAMAN, Nayyar Azam Khan RAO, Kalimulla KHAN, Prasanna M R H, Ramkumar RAJENDRAN, Deepavali Dinkarrao DESAI, Aloke ROY
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Patent number: 11523259Abstract: Systems and methods are disclosed for exchanging real-time data between vehicle systems by receiving, at a first source system, a request for data from a requestor and, based on determining that the first source system does not have all requested data, querying an operations center for missing data. Then, based on determining that the operations center does not have all missing data, the operations center is queried for a list comprising candidate source systems. Upon identifying a next source system from the list, the next source system is queried for missing data, and the next source system is removed from the list. Based on whether the next source system has all missing data, either all missing data is transmitted to the requestor, or, the process of finding and querying for the missing data is iteratively performed until all missing data is received or the list is empty.Type: GrantFiled: October 22, 2020Date of Patent: December 6, 2022Assignee: Honeywell International Inc.Inventors: Robert E Flasher, Nayyar Azam Khan Rao, Robert Pickell, Charles Dairman, Justin Schassler, Paramjit Kaur, Carol Rogers, Anup Raje
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Patent number: 11509675Abstract: A method of monitoring network traffic of a connected vehicle. The method includes receiving network traffic information from a vehicle gateway, the network traffic information including malicious and/or benign information. The method also includes storing the network traffic information on a data server and periodically updating the network traffic information stored on the data server.Type: GrantFiled: November 13, 2020Date of Patent: November 22, 2022Assignee: Honeywell International Inc.Inventors: Amit Srivastav, Rajesh Chenchu, Nayyar Azam Khan Rao, Phani Ammi Raju Pothula, Vijayshankaran Iyer
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Publication number: 20220103578Abstract: A method of monitoring network traffic of a connected vehicle. The method includes receiving network traffic information from a vehicle gateway, the network traffic information including malicious and/or benign information. The method also includes storing the network traffic information on a data server and periodically updating the network traffic information stored on the data server.Type: ApplicationFiled: November 13, 2020Publication date: March 31, 2022Inventors: Amit SRIVASTAV, Rajesh CHENCHU, Nayyar Azam Khan RAO, Phani Ammi Raju POTHULA, Vijayshankaran IYER
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Publication number: 20210058753Abstract: Systems and methods are disclosed for exchanging real-time data between vehicle systems by receiving, at a first source system, a request for data from a requestor and, based on determining that the first source system does not have all requested data, querying an operations center for missing data. Then, based on determining that the operations center does not have all missing data, the operations center is queried for a list comprising candidate source systems. Upon identifying a next source system from the list, the next source system is queried for missing data, and the next source system is removed from the list. Based on whether the next source system has all missing data, either all missing data is transmitted to the requestor, or, the process of finding and querying for the missing data is iteratively performed until all missing data is received or the list is empty.Type: ApplicationFiled: October 22, 2020Publication date: February 25, 2021Inventors: Robert E. FLASHER, Nayyar Azam Khan RAO, Robert PICKELL, Charles DAIRMAN, Justin SCHASSLER, Paramjit KAUR, Carol ROGERS, Anup RAJE
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Publication number: 20210024224Abstract: Disclosed are systems, methods, and non-transitory computer-readable medium for automatically capturing and recording anomalies and vehicle operator interaction data. For example, a method may comprise receiving external operational data associated with operation of a vehicle, detecting loading of one or more applications associated with the operation of the vehicle, capturing one or more interactions between an operator of the vehicle and the one or more applications at the vehicle, logging anomalies data associated with the operation of the vehicle, based on any anomaly identified from the received external operational data, the detected loading of the one or more applications, or the captured one or more interactions, recording the received external operational data, the detected loading of the one or more applications, the captured one or more interactions, and/or the logged anomalies data, to generate recorder data, storing the generated recorder data in one or more vehicle data recorder databases.Type: ApplicationFiled: July 22, 2019Publication date: January 28, 2021Inventors: Rajeev MOHAN, Kalimulla Khan, Raghu Shamasundar, Nayyar Azam Khan Rao, Srihari Jayathirtha
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Publication number: 20210020049Abstract: Disclosed are methods, systems and non-transitory computer-readable medium for providing a flight path around a zone of avoidance located on a currently planned flight path of an aircraft. For instance, the method may include obtaining data of the zone of avoidance located on the currently planned flight path; determining a safe distance from the zone of avoidance based on a characteristic of the aircraft or a characteristic of the zone of avoidance; constructing a safety envelope outside of the zone of avoidance by defining the safety envelope based on the safe distance; constructing a plurality of alternate flight paths around the zone of avoidance such that each of the plurality of alternate flight paths avoids crossing into the zone of avoidance and avoids crossing in between the safety envelope and the zone of avoidance; and selecting an optimal flight path from among the plurality of alternate flight paths.Type: ApplicationFiled: July 17, 2019Publication date: January 21, 2021Inventors: Visvanathan Thanigai NATHAN, Sivakumar KANAGARAJAN, Nayyar Azam Khan RAO
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Patent number: 10848940Abstract: Systems and methods are disclosed for exchanging real-time data between vehicle systems by receiving, at a first source system, a request for data from a requestor and, based on determining that the first source system does not have all requested data, querying an operations center for missing data. Then, based on determining that the operations center does not have all missing data, the operations center is queried for a list comprising candidate source systems. Upon identifying a next source system from the list, the next source system is queried for missing data, and the next source system is removed from the list. Based on whether the next source system has all missing data, either all missing data is transmitted to the requestor, or, the process of finding and querying for the missing data is iteratively performed until all missing data is received or the list is empty.Type: GrantFiled: August 31, 2018Date of Patent: November 24, 2020Assignee: HONEYWELL INTERNATIONAL INC.Inventors: Robert E Flasher, Nayyar Azam Khan Rao, Robert Pickell, Charles Dairman, Justin Schassler, Paramjit Kaur, Carol Rogers, Anup Raje
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Publication number: 20200301760Abstract: Disclosed are methods, systems, and non-transitory computer-readable medium for providing application programming interface (API) mashups. For instance, the method may include hosting a plurality of certified FMS micro-services associated with a plurality of FMS APIs; hosting an API mashup generator to perform an API mashup process and an API mashup recommendation process, the API mashup process generating combinations of APIs that include one or more APIs from the plurality of FMS APIs, other avionics APIs, and/or third party APIs; and hosting a service mesh to process a user request from a user device for the API mashup recommendation process or an invoke micro-service process.Type: ApplicationFiled: March 19, 2019Publication date: September 24, 2020Inventors: Kirupakar JANAKIRAMAN, Rajeev MOHAN, Nayyar Azam Khan RAO, Ramkumar RAJENDRAN
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Publication number: 20200226940Abstract: Disclosed are systems, methods, and non-transitory computer-readable medium for providing one or more flight management system (FMS) services as a Software as a Service (SaaS) with context-aware intelligence for a plurality of FMS users. For example, a system may include a context analyzer system configured to determine based on one or more context analysis parameters, a prediction engine configured to determine prediction data based on the one or more contexts and/or one or more prediction parameters, a recommender engine configured to determine recommendations based on one or more recommendation requests and/or one or more prediction data, a background processing system configured to identify background operations to support an operation of a first FMS service and generate background support data for the first FMS service, and a message bus in communication with an API gateway, the context analyzer system, the prediction engine, the recommender engine, and the background processing system.Type: ApplicationFiled: January 11, 2019Publication date: July 16, 2020Inventors: Narayanan SRINIVASAN, Rajeev MOHAN, Kirupakar JANAKIRAMAN, Nayyar Azam Khan RAO, Ramkumar RAJENDRAN
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Publication number: 20190208386Abstract: Systems and methods are disclosed for exchanging real-time data between vehicle systems by receiving, at a first source system, a request for data from a requestor and, based on determining that the first source system does not have all requested data, querying an operations center for missing data. Then, based on determining that the operations center does not have all missing data, the operations center is queried for a list comprising candidate source systems. Upon identifying a next source system from the list, the next source system is queried for missing data, and the next source system is removed from the list. Based on whether the next source system has all missing data, either all missing data is transmitted to the requestor, or, the process of finding and querying for the missing data is iteratively performed until all missing data is received or the list is empty.Type: ApplicationFiled: August 31, 2018Publication date: July 4, 2019Inventors: Robert E FLASHER, Nayyar Azam Khan RAO, Robert PICKELL, Charles DAIRMAN, Justin SCHASSLER, Paramjit KAUR, Carol ROGERS, Anup RAJE
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Publication number: 20190049578Abstract: In one embodiment, a vehicle is provided. The vehicle comprises a vehicle sensor processing system; at least one vehicle sensor, coupled to the vehicle sensor processing system, which is susceptible to shadow regions; wherein the vehicle sensor processing system is configured to be coupled to a vehicle communications system; and wherein the vehicle sensor system is configured to remotely obtain data about a shadow region in the geographic region.Type: ApplicationFiled: August 9, 2017Publication date: February 14, 2019Inventors: Anantha Chandrasekhar Koduru, Krishna Idupunur, Nayyar Azam Khan Rao
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Patent number: 9719799Abstract: An electronic flight bag for an aircraft includes a display device and a processing system. The display device is operable to render various images. The processing system is in operable communication with the display. The processing system is configured to receive various types of data from various aircraft systems and is operable, upon receipt of the data, to supply display commands to the display device that cause the display device to automatically render various images. These images may include, among other things, flight manual pages, checklists, approach charts, maintenance data, and various navigation displays. The electronic flight bag may also implement the functions of various other aircraft systems and devices.Type: GrantFiled: December 12, 2008Date of Patent: August 1, 2017Assignee: HONEYWELL INTERNATIONAL INC.Inventors: Anil Kumar Pandit, Srikanth Rao, Nayyar Azam Khan Rao, Nagaraj Sham Bhat
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Publication number: 20100152924Abstract: An electronic flight bag for an aircraft includes a display device and a processing system. The display device is operable to render various images. The processing system is in operable communication with the display. The processing system is configured to receive various types of data from various aircraft systems and is operable, upon receipt of the data, to supply display commands to the display device that cause the display device to automatically render various images. These images may include, among other things, flight manual pages, checklists, approach charts, maintenance data, and various navigation displays. The electronic flight bag may also implement the functions of various other aircraft systems and devices.Type: ApplicationFiled: December 12, 2008Publication date: June 17, 2010Applicant: HONEYWELL INTERNATIONAL INC.Inventors: Anil Kumar Pandit, Srikanth Rao, Nayyar Azam Khan Rao, Nagaraj Sham Bhat