Patents by Inventor RADHAKRISHNA EMBARMANNAR VIJAYAN
RADHAKRISHNA EMBARMANNAR VIJAYAN 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: 11916721Abstract: Examples herein describe systems and methods for self-healing in a Telco network function virtualization cloud. KPI attributes for virtual network functions can be mapped to physical fault notifications to create synthesized alerts. The synthesized alerts can include information from both a virtual and physical layer, allowing a self-healing action framework to determine root causes of problems in the Telco cloud. Remedial actions can then be performed in either the virtual or physical layer of the Telco cloud. Remedial actions in one layer can be based on root causes identified in the other, which can allow for remediation before network downtime occurs.Type: GrantFiled: June 2, 2022Date of Patent: February 27, 2024Assignee: VMware, Inc.Inventors: Radhakrishna Embarmannar Vijayan, Thatayya Naidu Venkata Polamarasetty
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Patent number: 11818017Abstract: Examples described herein include systems and methods for managing slices in a Telco network by using a graphical user interface (“GUI”) with augmented reality (“AR”). A user device can scan a code that is related to physical hardware in a datacenter. Based on the code, the GUI can display at least one virtual component that resides on that hardware. The user can move the virtual component from one slice to another, such as by dragging it to a displayed slice region. Similarly, the user can drag the virtual component to new physical hardware. This can cause an AR engine to contact an orchestrator to route traffic to the virtual component according to the new slice identifier and new hardware. The GUI can also provide a datacenter map to related physical or virtual components, allowing the user to locate and inspect other hardware relied on by a slice.Type: GrantFiled: June 7, 2022Date of Patent: November 14, 2023Assignee: VMware, Inc.Inventors: Radhakrishna Embarmannar Vijayan, Sameer Tatiraju
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Publication number: 20220303193Abstract: Examples described herein include systems and methods for managing slices in a Telco network by using a graphical user interface (“GUI”) with augmented reality (“AR”). A user device can scan a code that is related to physical hardware in a datacenter. Based on the code, the GUI can display at least one virtual component that resides on that hardware. The user can move the virtual component from one slice to another, such as by dragging it to a displayed slice region. Similarly, the user can drag the virtual component to new physical hardware. This can cause an AR engine to contact an orchestrator to route traffic to the virtual component according to the new slice identifier and new hardware. The GUI can also provide a datacenter map to related physical or virtual components, allowing the user to locate and inspect other hardware relied on by a slice.Type: ApplicationFiled: June 7, 2022Publication date: September 22, 2022Inventors: RADHAKRISHNA EMBARMANNAR VIJAYAN, SAMEER TATIRAJU
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Publication number: 20220303169Abstract: Examples herein describe systems and methods for self-healing in a Telco network function virtualization cloud. KPI attributes for virtual network functions can be mapped to physical fault notifications to create synthesized alerts. The synthesized alerts can include information from both a virtual and physical layer, allowing a self-healing action framework to determine root causes of problems in the Telco cloud. Remedial actions can then be performed in either the virtual or physical layer of the Telco cloud. Remedial actions in one layer can be based on root causes identified in the other, which can allow for remediation before network downtime occurs.Type: ApplicationFiled: June 2, 2022Publication date: September 22, 2022Inventors: Radhakrishna Embarmannar Vijayan, Thatayya Naidu Venkata Polamarasetty
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Patent number: 11362909Abstract: Examples described herein include systems and methods for managing slices in a Telco network by using a graphical user interface (“GUI”) with augmented reality (“AR”). A user device can scan a code that is related to physical hardware in a datacenter. Based on the code, the GUI can display at least one virtual component that resides on that hardware. The user can move the virtual component from one slice to another, such as by dragging it to a displayed slice region. Similarly, the user can drag the virtual component to new physical hardware. This can cause an AR engine to contact an orchestrator to route traffic to the virtual component according to the new slice identifier and new hardware. The GUI can also provide a datacenter map to related physical or virtual components, allowing the user to locate and inspect other hardware relied on by a slice.Type: GrantFiled: March 29, 2021Date of Patent: June 14, 2022Assignee: VMware, Inc.Inventors: Radhakrishna Embarmannar Vijayan, Sameer Tatiraju
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Patent number: 11356318Abstract: Examples herein describe systems and methods for self-healing in a Telco network function virtualization cloud. KPI attributes for virtual network functions can be mapped to physical fault notifications to create synthesized alerts. The synthesized alerts can include information from both a virtual and physical layer, allowing a self-healing action framework to determine root causes of problems in the Telco cloud. Remedial actions can then be performed in either the virtual or physical layer of the Telco cloud. Remedial actions in one layer can be based on root causes identified in the other, which can allow for remediation before network downtime occurs.Type: GrantFiled: January 2, 2021Date of Patent: June 7, 2022Assignee: VMWARE, INC.Inventors: Radhakrishna Embarmannar Vijayan, Thatayya Naidu Venkata Polamarasetty
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Publication number: 20210218640Abstract: Examples described herein include systems and methods for managing slices in a Telco network by using a graphical user interface (“GUI”) with augmented reality (“AR”). A user device can scan a code that is related to physical hardware in a datacenter. Based on the code, the GUI can display at least one virtual component that resides on that hardware. The user can move the virtual component from one slice to another, such as by dragging it to a displayed slice region. Similarly, the user can drag the virtual component to new physical hardware. This can cause an AR engine to contact an orchestrator to route traffic to the virtual component according to the new slice identifier and new hardware. The GUI can also provide a datacenter map to related physical or virtual components, allowing the user to locate and inspect other hardware relied on by a slice.Type: ApplicationFiled: March 29, 2021Publication date: July 15, 2021Inventors: Radhakrishna Embarmannar Vijayan, Sameer Tatiraju
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Publication number: 20210152415Abstract: Examples herein describe systems and methods for self-healing in a Telco network function virtualization cloud. KPI attributes for virtual network functions can be mapped to physical fault notifications to create synthesized alerts. The synthesized alerts can include information from both a virtual and physical layer, allowing a self-healing action framework to determine root causes of problems in the Telco cloud. Remedial actions can then be performed in either the virtual or physical layer of the Telco cloud. Remedial actions in one layer can be based on root causes identified in the other, which can allow for remediation before network downtime occurs.Type: ApplicationFiled: January 2, 2021Publication date: May 20, 2021Inventors: Radhakrishna Embarmannar Vijayan, Thatayya Naidu Venkata Polamarasetty
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Patent number: 10965544Abstract: Examples described herein include systems and methods for managing slices in a Telco network by using a graphical user interface (“GUI”) with augmented reality (“AR”). A user device can scan a code that is related to physical hardware in a datacenter. Based on the code, the GUI can display at least one virtual component that resides on that hardware. The user can move the virtual component from one slice to another, such as by dragging it to a displayed slice region. Similarly, the user can drag the virtual component to new physical hardware. This can cause an AR engine to contact an orchestrator to route traffic to the virtual component according to the new slice identifier and new hardware. The GUI can also provide a datacenter map to related physical or virtual components, allowing the user to locate and inspect other hardware relied on by a slice.Type: GrantFiled: September 16, 2019Date of Patent: March 30, 2021Assignee: VMware, Inc.Inventors: Radhakrishna Embarmannar Vijayan, Sameer Tatiraju
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Patent number: 10924329Abstract: Examples herein describe systems and methods for self-healing in a Telco network function virtualization cloud. KPI attributes for virtual network functions can be mapped to physical fault notifications to create synthesized alerts. The synthesized alerts can include information from both a virtual and physical layer, allowing a self-healing action framework to determine root causes of problems in the Telco cloud. Remedial actions can then be performed in either the virtual or physical layer of the Telco cloud. Remedial actions in one layer can be based on root causes identified in the other, which can allow for remediation before network downtime occurs.Type: GrantFiled: March 20, 2019Date of Patent: February 16, 2021Assignee: VMWARE, INC.Inventors: Radhakrishna Embarmannar Vijayan, Thatayya Naidu Venkata Polamarasetty
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Publication number: 20210036934Abstract: Examples described herein include systems and methods for managing slices in a Telco network by using a graphical user interface (“GUI”) with augmented reality (“AR”). A user device can scan a code that is related to physical hardware in a datacenter. Based on the code, the GUI can display at least one virtual component that resides on that hardware. The user can move the virtual component from one slice to another, such as by dragging it to a displayed slice region. Similarly, the user can drag the virtual component to new physical hardware. This can cause an AR engine to contact an orchestrator to route traffic to the virtual component according to the new slice identifier and new hardware. The GUI can also provide a datacenter map to related physical or virtual components, allowing the user to locate and inspect other hardware relied on by a slice.Type: ApplicationFiled: September 16, 2019Publication date: February 4, 2021Inventors: Radhakrishna Embarmannar Vijayan, Sameer Tatiraju
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Patent number: 10887156Abstract: Examples herein describe systems and methods for self-healing in a Telco network function virtualization cloud. KPI attributes for virtual network functions can be mapped to physical fault notifications to create synthesized alerts. The synthesized alerts can include information from both a virtual and physical layer, allowing a self-healing action framework to determine root causes of problems in the Telco cloud. Remedial actions can then be performed in either the virtual or physical layer of the Telco cloud. Remedial actions in one layer can be based on root causes identified in the other, which can allow for remediation before network downtime occurs.Type: GrantFiled: March 20, 2019Date of Patent: January 5, 2021Assignee: VMWARE, INC.Inventors: Radhakrishna Embarmannar Vijayan, Thatayya Naidu Venkata Polamarasetty
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Publication number: 20200401936Abstract: Examples herein describe systems and methods for self-aware service assurance in a Telco network. A machine learning engine can receive key performance indicators (“KPIs”) and physical faults related to virtual and physical network components, respectively. The machine learning engine can apply spatial and temporal analysis to define how models process the KPIs and faults and issue alerts for predictively remediating the network components. The machine learning engine can analyze the impact of these alerts on network health. This can include experimenting with different alert models and tuning how the machine learning engine processes the KPIs and faults based on which models are positively impacting network health compared to others. Based on newly detected patterns, event correlations, and anomalies, the machine learning engine can tune the model criteria to more accurately prevent problems from occurring.Type: ApplicationFiled: August 8, 2019Publication date: December 24, 2020Inventors: Radhakrishna Embarmannar Vijayan, Thatayya Naidu Venkata Polamarasetty
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Publication number: 20200235986Abstract: Examples herein describe systems and methods for self-healing in a Telco network function virtualization cloud. KPI attributes for virtual network functions can be mapped to physical fault notifications to create synthesized alerts. The synthesized alerts can include information from both a virtual and physical layer, allowing a self-healing action framework to determine root causes of problems in the Telco cloud. Remedial actions can then be performed in either the virtual or physical layer of the Telco cloud. Remedial actions in one layer can be based on root causes identified in the other, which can allow for remediation before network downtime occurs.Type: ApplicationFiled: March 20, 2019Publication date: July 23, 2020Inventors: RADHAKRISHNA EMBARMANNAR VIJAYAN, THATAYYA NAIDU VENKATA POLAMARASETTY
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Publication number: 20200235985Abstract: Examples herein describe systems and methods for self-healing in a Telco network function virtualization cloud. KPI attributes for virtual network functions can be mapped to physical fault notifications to create synthesized alerts. The synthesized alerts can include information from both a virtual and physical layer, allowing a self-healing action framework to determine root causes of problems in the Telco cloud. Remedial actions can then be performed in either the virtual or physical layer of the Telco cloud. Remedial actions in one layer can be based on root causes identified in the other, which can allow for remediation before network downtime occurs.Type: ApplicationFiled: March 20, 2019Publication date: July 23, 2020Inventors: RADHAKRISHNA EMBARMANNAR VIJAYAN, THATAYYA NAIDU VENKATA POLAMARASETTY