Patents by Inventor Shubhashree Venkatesh
Shubhashree Venkatesh 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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Patent number: 12093878Abstract: Systems and methods for managing permissions and authorizing access to a service supported by a computing device. The methods comprise by a computing device: intercepting a request to access the service sent along with a certificate including a first tenant identifier (the first tenant identifier identifying a first business entity other than a second business entity providing the service); using the first tenant identifier to obtain permission information from a datastore (the permission information specifying which resources of a plurality of resources can be returned in response to requests from the first business entity); generating a web authentication token including the first tenant identifier and the permission information; and initiating operations of the service in response to a validation of the web authentication token.Type: GrantFiled: February 8, 2022Date of Patent: September 17, 2024Assignee: Argo AI, LLCInventors: Shubhashree Venkatesh, Noe Brito, Yee-Ning Cheng, Madhav Chhura, Sebastian Dovenor, John Drake, Jonathan Pan, Jason Parraga, Scott Plant
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Publication number: 20240144127Abstract: This document discloses system, method, and computer program product embodiments for dynamically assigning vehicles or other objects to fleets of multiple tenants. Each tenant will be assigned a primary fleet of objects (such as vehicles) and will be associated with a minimum service level requirement and parameters governing operation of each object that is assigned to that primary fleet. The system will maintain a common fleet of vehicles, from which objects may be temporarily assigned to the primary fleets. When one of the tenants submits a service request, the system will select an object from the common fleet, assign the selected object to the primary fleet of that tenant's primary fleet, and cause the object to fulfill the first trip request in accordance with the set of parameters governing operation of each object that is assigned to the primary fleet of that tenant.Type: ApplicationFiled: November 1, 2022Publication date: May 2, 2024Inventors: Sebastian Dovenor, Shubhashree Venkatesh, Bennett Diaz, Shenglong Gao
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Publication number: 20230105216Abstract: Methods and systems for generating a planned path for a vehicle are disclosed. Upon receiving a trip service request, a processor will access a data store containing multiple candidate motion planning systems, each of which is associated with at least one vehicle or fleet. The processor will identify a starting point and a destination for the trip service request, and it will use an identifier for the vehicle or its fleet to select, from the candidate systems, a motion planning system. The processor will use the functions of the selected motion planning system to generate candidate trajectories for the first vehicle from the starting point to the destination in a high definition map. The processor will select a planned route from the candidate trajectories, and it will output trip instructions to cause the vehicle to move along the planned route.Type: ApplicationFiled: February 8, 2022Publication date: April 6, 2023Inventors: Shubhashree Venkatesh, Noe Brito, Yee-Ning Cheng, Madhav Chhura, Sebastian Dovenor, John Drake, Jonathan Pan, Jason Parraga, Scott Plant
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Publication number: 20230105230Abstract: Methods and systems for obtaining serviceable areas for a robotic system in a metropolitan area are described. A computing device obtains information about places where (i) the system can route to and from in the area and/or (ii) the system can stop in the area. The computing device uses the information to generate clusters of places where the robotic system can route or stop in the metropolitan area. The computing device creates a geometric shape for each cluster, wherein each shape which has a boundary defined by outermost places contained in the cluster. The computing device uses the geometric shapes to define the serviceable areas for the robotic system within the metropolitan area. The computing device uses the serviceable areas to generate a map displaying at least one geographic area representing a portion of the metropolitan area where a concentrated number of the places exist.Type: ApplicationFiled: February 8, 2022Publication date: April 6, 2023Inventors: Shubhashree Venkatesh, Noe Brito, Yee-Ning Cheng, Madhav Chhura, Sebastian Dovenor, John Drake, Jonathan Pan, Jason Parraga, Scott Plant
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Publication number: 20230103981Abstract: Systems and methods for managing permissions and authorizing access to a service supported by a computing device. The methods comprise by a computing device: intercepting a request to access the service sent along with a certificate including a first tenant identifier (the first tenant identifier identifying a first business entity other than a second business entity providing the service); using the first tenant identifier to obtain permission information from a datastore (the permission information specifying which resources of a plurality of resources can be returned in response to requests from the first business entity); generating a web authentication token including the first tenant identifier and the permission information; and initiating operations of the service in response to a validation of the web authentication token.Type: ApplicationFiled: February 8, 2022Publication date: April 6, 2023Inventors: Shubhashree Venkatesh, Noe Brito, Yee-Ning Cheng, Madhav Chhura, Sebastian Dovenor, John Drake, Jonathan Pan, Jason Parraga, Scott Plant
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Publication number: 20230104379Abstract: Methods and systems for estimating a time of arrival for a vehicle at a destination are disclosed. The system will access an adjacency graph comprising nodes and edges. Each node is associated with a unique location in a geographic area in which the vehicle is traveling. Each edge connects two of the nodes and is associated with an estimated travel time between the two connected nodes. The system will select, from the locations in adjacency graph, a first location that is near the vehicle and a second location that is near the destination. The location and destination are each associated with nodes in adjacency graph. The system will calculate a shortest path along the edges in the adjacency graph from the location and destination nodes, and it will calculate an estimated time of arrival for the vehicle as a function of the estimated travel times along the shortest path.Type: ApplicationFiled: February 8, 2022Publication date: April 6, 2023Inventors: Shubhashree Venkatesh, Noe Brito, Yee-Ning Cheng, Madhav Chhura, Sebastian Dovenor, John Drake, Jonathan Pan, Jason Parraga, Scott Plant
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Publication number: 20230106268Abstract: Methods and systems that use a phantom vehicle to help generate a planned path for a real-world vehicle are described. The system will identify a starting point and a destination for a trip of the real-world vehicle. The system will select, from the data store of vehicle profiles, a phantom vehicle having an associated motion planning system that corresponds to a system that is deployed on the real-world vehicle. The system will use a high definition map to generate a planned route for the real-world vehicle from the starting point to the destination in the map. The system will run a simulation in which the phantom vehicle moves along the planned route in the map. The system will then output a record of the simulation to a user of the real world-vehicle or to a system of the real-world vehicle.Type: ApplicationFiled: February 8, 2022Publication date: April 6, 2023Inventors: Shubhashree Venkatesh, Noe Brito, Yee-Ning Cheng, Madhav Chhura, Sebastian Dovenor, John Drake, Jonathan Pan, Jason Parraga, Scott Plant
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Publication number: 20220321564Abstract: In some examples, a computing device can include a processor resource and a non-transitory memory resource storing machine-readable instructions stored thereon that, when executed, cause the processor resource to: send, by a first service, a first signal to a first resource that is separated by a network security solution utilizing a first communication path, send, by a second service, the first signal with a first payload to a second resource that is separated by the network security solution utilizing a second communication path, receive, by the second service, a second signal with a second payload from the second resource through the second communication path in response to the first signal, and send, by the second service, instructions related to the second payload to the first service to execute the instructions.Type: ApplicationFiled: April 2, 2021Publication date: October 6, 2022Inventors: Travis M. Cossel, Russuel Wood, Shubhashree Venkatesh
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Publication number: 20220297698Abstract: Devices, systems, and methods are provided for enhanced rider pairing of an autonomous vehicle (AV). A system may pair a first user profile of a first user located at a first location with a first autonomous vehicle (AV) to complete a trip to a destination selected by the first user. The system may detect a second AV at the first location, wherein the second AV is associated with a second user profile. The system may connect the second AV with the first user using a connection mechanism. The system may select a profile status of the first user profile based on the connection to the second AV. The system may pair the first user profile with the second AV based on the profile status.Type: ApplicationFiled: June 10, 2021Publication date: September 22, 2022Applicant: Argo AI, LLCInventors: Shenglong Gao, Israel Marc Kositsky, Ramadev Burigsay Hukkeri, Thomas Mark Petroff, Scott Plant, Brett Browning, Shubhashree Venkatesh
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Patent number: 10567242Abstract: In one embodiment, the system may identify a virtual network, the virtual network including a plurality of virtual entities and connections among the plurality of virtual entities. The system may automatically map each of the plurality of virtual entities to one or more resources or resource pools such that the virtual network is mapped to a physical network, wherein mapping includes allocating one or more resources or resource pools to a corresponding one of the plurality of virtual entities.Type: GrantFiled: October 17, 2017Date of Patent: February 18, 2020Assignee: Cisco Technology, Inc.Inventors: Laurent Plumelle, Lawrence Rolfe Kreeger, Michael Freed, Rituraj Kirti, Joe Joseph Karimundackal, Elango Ganesan, Brian Yoshiaki Uchino, Siva M. Vaddepuri, Shubhashree Venkatesh
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Publication number: 20180041406Abstract: In one embodiment, the system may identify a virtual network, the virtual network including a plurality of virtual entities and connections among the plurality of virtual entities. The system may automatically map each of the plurality of virtual entities to one or more resources or resource pools such that the virtual network is mapped to a physical network, wherein mapping includes allocating one or more resources or resource pools to a corresponding one of the plurality of virtual entities.Type: ApplicationFiled: October 17, 2017Publication date: February 8, 2018Inventors: Laurent Plumelle, Lawrence Rolfe Kreeger, Michael Freed, Rituraj Kirti, Joe Joseph Karimundackal, Elango Ganesan, Brian Yoshiaki Uchino, Siva M. Vaddepuri, Shubhashree Venkatesh
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Patent number: 9825824Abstract: In one embodiment, the system may identify a virtual network, the virtual network including a plurality of virtual entities and connections among the plurality of virtual entities. The system may automatically map each of the plurality of virtual entities to one or more resources or resource pools such that the virtual network is mapped to a physical network, wherein mapping includes allocating one or more resources or resource pools to a corresponding one of the plurality of virtual entities.Type: GrantFiled: December 19, 2014Date of Patent: November 21, 2017Assignee: CISCO TECHNOLOGY, INC.Inventors: Laurent Plumelle, Lawrence Rolfe Kreeger, Michael Freed, Rituraj Kirti, Joe Joseph Karimundackal, Elango Ganesan, Brian Yoshiaki Uchino, Siva M. Vaddepuri, Shubhashree Venkatesh
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Publication number: 20150106488Abstract: In one embodiment, the system may identify a virtual network, the virtual network including a plurality of virtual entities and connections among the plurality of virtual entities. The system may automatically map each of the plurality of virtual entities to one or more resources or resource pools such that the virtual network is mapped to a physical network, wherein mapping includes allocating one or more resources or resource pools to a corresponding one of the plurality of virtual entities.Type: ApplicationFiled: December 19, 2014Publication date: April 16, 2015Inventors: Laurent Plumelle, Lawrence Rolfe Kreeger, Michael Freed, Rituraj Kirti, Joe Joseph Karimundackal, Elango Ganesan, Brian Yoshiaki Uchino, Siva M. Vaddepuri, Shubhashree Venkatesh
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Patent number: 8930511Abstract: In one embodiment, the system may identify a virtual network, the virtual network including a plurality of virtual entities and connections among the plurality of virtual entities. The system may automatically map each of the plurality of virtual entities to one or more resources or resource pools such that the virtual network is mapped to a physical network, wherein mapping includes allocating one or more resources or resource pools to a corresponding one of the plurality of virtual entities.Type: GrantFiled: July 7, 2008Date of Patent: January 6, 2015Assignee: Cisco Technology, Inc.Inventors: Laurent Plumelle, Lawrence Rolfe Kreeger, Michael Freed, Rituraj Kirti, Joe Joseph Karimundackal, Elango Ganesan, Brian Yoshiaki Uchino, Siva M. Vaddepuri, Shubhashree Venkatesh