Patents by Inventor Ravi Kiran Rachakonda
Ravi Kiran Rachakonda 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: 11600291Abstract: This disclosure describes techniques for identifying a voice-enabled device from a group of voice-enabled devices to respond to a speech utterance of a user. A speech-processing system may receive an audio signal representing the speech utterance captured in an environment of a voice-enabled device, and identify another voice-enabled device located in the environment. The system may analyze the audio signal using a different natural-language-understanding model for each of the voice-enabled devices to identify an intent for each of the voice-enabled devices to respond to the speech utterance. The system may determine confidence scores that the intents are responsive to the speech utterance, and select the intent with the highest confidence score. The system may use the selected intent to generate a command for the corresponding voice-enabled device to respond to the user.Type: GrantFiled: June 12, 2020Date of Patent: March 7, 2023Assignee: Amazon Technologies, Inc.Inventors: Gang Lan, Joseph Pedro Tavares, Deepak Uttam Shah, Mckay Clawson, Vijay Shankar Tennety, Ravi Kiran Rachakonda, Venkata Snehith Cherukuri, Charles James Torbert
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Publication number: 20220215837Abstract: This disclosure describes, in part, context-based device arbitration techniques to select a voice-enabled device from multiple voice-enabled devices to provide a response to a command included in a speech utterance of a user. In some examples, the context-driven arbitration techniques may include determining a ranked list of voice-enabled devices that are ranked based on audio signal metric values for audio signals generated by each voice-enabled device, and iteratively moving through the list to determine, based on device states of the voice-enabled devices, whether one of the voice-enabled devices can perform an action responsive to the command. If the voice-enabled devices that detected the speech utterance are unable to perform the action responsive to the command, all other voice-enabled devices associated with an account may be analyzed to determine whether one of the other voice-enabled devices can perform the action responsive to the command in the speech utterance.Type: ApplicationFiled: March 22, 2022Publication date: July 7, 2022Inventors: Joseph White, Ravi Kiran Rachakonda, Vinodth Kumar Mohanam, Lalithkumar Rajendran, Deepak Uttam Shah, Maziyar Khorasani, Venkata Snehith Cherukuri
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Patent number: 11289087Abstract: This disclosure describes, in part, context-based device arbitration techniques to select a voice-enabled device from multiple voice-enabled devices to provide a response to a command included in a speech utterance of a user. In some examples, the context-driven arbitration techniques may include determining a ranked list of voice-enabled devices that are ranked based on audio signal metric values for audio signals generated by each voice-enabled device, and iteratively moving through the list to determine, based on device states of the voice-enabled devices, whether one of the voice-enabled devices can perform an action responsive to the command. If the voice-enabled devices that detected the speech utterance are unable to perform the action responsive to the command, all other voice-enabled devices associated with an account may be analyzed to determine whether one of the other voice-enabled devices can perform the action responsive to the command in the speech utterance.Type: GrantFiled: January 24, 2020Date of Patent: March 29, 2022Assignee: Amazon Technologies, Inc.Inventors: Joseph White, Lalithkumar Rajendran, Ravi Kiran Rachakonda, Venkata Snehith Cherukuri, Deepak Uttam Shah, Maziyar Khorasani, Vinodth Kumar Mohanam
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Publication number: 20200211554Abstract: This disclosure describes, in part, context-based device arbitration techniques to select a voice-enabled device from multiple voice-enabled devices to provide a response to a command included in a speech utterance of a user. In some examples, the context-driven arbitration techniques may include determining a ranked list of voice-enabled devices that are ranked based on audio signal metric values for audio signals generated by each voice-enabled device, and iteratively moving through the list to determine, based on device states of the voice-enabled devices, whether one of the voice-enabled devices can perform an action responsive to the command. If the voice-enabled devices that detected the speech utterance are unable to perform the action responsive to the command, all other voice-enabled devices associated with an account may be analyzed to determine whether one of the other voice-enabled devices can perform the action responsive to the command in the speech utterance.Type: ApplicationFiled: January 24, 2020Publication date: July 2, 2020Inventors: Joseph White, Lalithkumar Rajendran, Ravi Kiran Rachakonda, Venkata Snehith Cherukuri, Deepak Uttam Shah, Maziyar Khorasani, Vinodth Kumar Mohanam
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Patent number: 10685669Abstract: This disclosure describes techniques for identifying a voice-enabled device from a group of voice-enabled devices to respond to a speech utterance of a user. A speech-processing system may receive an audio signal representing the speech utterance captured in an environment of a voice-enabled device, and identify another voice-enabled device located in the environment. The system may analyze the audio signal using a different natural-language-understanding model for each of the voice-enabled devices to identify an intent for each of the voice-enabled devices to respond to the speech utterance. The system may determine confidence scores that the intents are responsive to the speech utterance, and select the intent with the highest confidence score. The system may use the selected intent to generate a command for the corresponding voice-enabled device to respond to the user.Type: GrantFiled: March 20, 2018Date of Patent: June 16, 2020Assignee: Amazon Technologies, Inc.Inventors: Gang Lan, Joseph Pedro Tavares, Deepak Uttam Shah, Mckay Clawson, Vijay Shankar Tennety, Ravi Kiran Rachakonda, Venkata Snehith Cherukuri, Charles James Torbert
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Patent number: 10546583Abstract: This disclosure describes, in part, context-based device arbitration techniques to select a voice-enabled device from multiple voice-enabled devices to provide a response to a command included in a speech utterance of a user. In some examples, the context-driven arbitration techniques may include determining a ranked list of voice-enabled devices that are ranked based on audio signal metric values for audio signals generated by each voice-enabled device, and iteratively moving through the list to determine, based on device states of the voice-enabled devices, whether one of the voice-enabled devices can perform an action responsive to the command. If the voice-enabled devices that detected the speech utterance are unable to perform the action responsive to the command, all other voice-enabled devices associated with an account may be analyzed to determine whether one of the other voice-enabled devices can perform the action responsive to the command in the speech utterance.Type: GrantFiled: August 30, 2017Date of Patent: January 28, 2020Assignee: Amazon Technologies, Inc.Inventors: Joseph White, Ravi Kiran Rachakonda, Vinodth Kumar Mohanam, Lalithkumar Rajendran, Deepak Uttam Shah, Maziyar Khorasani, Venkata Snehith Cherukuri
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Publication number: 20190066670Abstract: This disclosure describes, in part, context-based device arbitration techniques to select a voice-enabled device from multiple voice-enabled devices to provide a response to a command included in a speech utterance of a user. In some examples, the context-driven arbitration techniques may include determining a ranked list of voice-enabled devices that are ranked based on audio signal metric values for audio signals generated by each voice-enabled device, and iteratively moving through the list to determine, based on device states of the voice-enabled devices, whether one of the voice-enabled devices can perform an action responsive to the command. If the voice-enabled devices that detected the speech utterance are unable to perform the action responsive to the command, all other voice-enabled devices associated with an account may be analyzed to determine whether one of the other voice-enabled devices can perform the action responsive to the command in the speech utterance.Type: ApplicationFiled: August 30, 2017Publication date: February 28, 2019Inventors: Joseph White, Ravi Kiran Rachakonda, Vinodth Kumar Mohanam, Lalithkumar Rajendran, Deepak Uttam Shah, Maziyar Khorasani, Venkata Snehith Cherukuri