Patents by Inventor Shashi Kant
Shashi Kant 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: 20240027206Abstract: Methods and systems for correcting errors in transportation routes are provided. In one embodiment, a method is provided that includes receiving a transportation request that includes at least two locations. A first route prediction may be generated based on a first set of previously-completed routes associated with the at least two locations. A first predictive model may compare the first route prediction with route information associated with a second set of previously-completed routes identified based on the first route prediction. A second route prediction may be generated based on the comparison and may be sent to a mobile device for presentation to a user.Type: ApplicationFiled: September 20, 2023Publication date: January 25, 2024Inventors: Shashi Kant Sharma, Xianzhe Liang, Ricky Chachra, Xabier Azagirre Lekuona, Gerardo dela Rosa Michicol, Piyush Garg, Adriel Frederick, Chirag Chhagan Chheda, Jack Chun Zhou, Amarnath Pundalika Pai
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Patent number: 11826981Abstract: The present disclosure provides electrolyte solutions for electrodeposition of zinc-manganese alloys, methods of forming electrolyte solutions, methods of electrodepositing zinc-manganese alloys, and multilayered zinc-manganese alloys. An electrolyte solution for electroplating can include a metal salt, boric acid, an alkali metal chloride, polyethylene glycol, and a hydroxy benzaldehyde. An electrolyte solution can be formed by dissolving a metal salt, boric acid, an alkali metal chloride, polyethylene glycol, and a hydroxy benzaldehyde in water or an aqueous solution. Electrodepositing zinc-manganese alloys on a substrate can include introducing a cathode and an anode into an electrolyte solution comprising a metal salt, boric acid, an alkali metal chloride, polyethylene glycol, and a hydroxy benzaldehyde. Electrodepositing can further include passing a current between the cathode and the anode through the electrolyte solution to deposit zinc and manganese onto the cathode.Type: GrantFiled: March 14, 2023Date of Patent: November 28, 2023Assignee: THE BOEING COMPANYInventors: Stephen P. Gaydos, Vijaykumar S. Ijeri, Om Prakash, Shashi Kant Tiwari, Raghuvir Singh, Sharma Paswan, Lokesh C. Pathak
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Patent number: 11781874Abstract: Methods and systems for correcting errors in transportation routes are provided. In one embodiment, a method is provided that includes receiving a transportation request that includes at least two locations. A first route prediction may be generated based on a first set of previously-completed routes associated with the at least two locations. A first predictive model may compare the first route prediction with route information associated with a second set of previously-completed routes identified based on the first route prediction. A second route prediction may be generated based on the comparison and may be sent to a mobile device for presentation to a user.Type: GrantFiled: September 12, 2019Date of Patent: October 10, 2023Assignee: Lyft, Inc.Inventors: Shashi Kant Sharma, Xianzhe Liang, Ricky Chachra, Xabier Azagirre Lekuona, Gerardo dela Rosa Michicol, Piyush Garg, Adriel Frederick, Chirag Chhagan Chheda, Jack Chun Zhou, Amarnath Pundalika Pai
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Publication number: 20230289857Abstract: The disclosed systems can regulate access to an online mode for a dynamic transportation matching system. For example, based on a provider efficiency parameter associated with the dynamic transportation matching system, the disclosed systems can prevent a transportation provider device from switching to the online mode within a geographic area. In addition, the disclosed systems can detect a pattern of behavior and, based on a comparison between the pattern of behavior and a behavioral threshold, cause a transportation provider device to switch from the online mode to an offline mode. Further, the disclosed systems can provide a map interface that indicates where a transportation provider device can switch from the offline mode to the online mode. Additionally, the disclosed systems can determine priorities associated with transportation provider devices and, based on the prioritization, selectively allow the transportation provider devices to switch from the offline mode to the online mode.Type: ApplicationFiled: March 30, 2023Publication date: September 14, 2023Inventors: Helen Wai-Quen Bentley, Aidan Church, John Torres Fremlin, Matthew Lawrence Green, Mayank Gulati, Yilei Li, Demitri Nava, Mengqi Niu, Daniel Allen Sullivan, Garrett van Ryzin, Rachel Marie Wasko, Shashi Kant Sharma
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Patent number: 11748789Abstract: The disclosed systems can regulate access to an online mode for a dynamic transportation matching system. For example, based on a provider efficiency parameter associated with the dynamic transportation matching system, the disclosed systems can prevent a transportation provider device from switching to the online mode within a geographic area. In addition, the disclosed systems can detect a pattern of behavior and, based on a comparison between the pattern of behavior and a behavioral threshold, cause a transportation provider device to switch from the online mode to an offline mode. Further, the disclosed systems can provide a map interface that indicates where a transportation provider device can switch from the offline mode to the online mode. Additionally, the disclosed systems can determine priorities associated with transportation provider devices and, based on the prioritization, selectively allow the transportation provider devices to switch from the offline mode to the online mode.Type: GrantFiled: November 1, 2019Date of Patent: September 5, 2023Assignee: Lyft, Inc.Inventors: Helen Wai-Quen Bentley, Aidan Church, John Torres Fremlin, Matthew Lawrence Green, Mayank Gulati, Yilei Li, Demitri Nava, Mengqi Niu, Daniel Allen Sullivan, Garrett van Ryzin, Rachel Marie Wasko, Shashi Kant Sharma
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Publication number: 20230273891Abstract: An apparatus comprises a circuit board comprising a connector in or on the circuit board. The apparatus is to be coupled to a bus via the connector. The apparatus comprises first circuitry to communicate with a processor via the connector and bus, second circuitry to detect a utilization state of the first circuitry, determine, based on the detected utilization state of the first circuitry, a level of current to be conducted with the connector; and generate a signal indicating of whether the level of current exceeds a threshold current capacity of the connector, and third circuitry to select a first operational mode from among multiple operational modes. The first circuitry is to operate in any of the multiple operational modes responsive to the third circuitry. Additional circuitry may be provided to identify a voltage level capability of the apparatus and to configure voltage level shifting circuitry connected to the bus.Type: ApplicationFiled: February 25, 2022Publication date: August 31, 2023Applicant: Intel CorporationInventors: Mythili Hegde, Shailendra Singh Chauhan, Arunthathi Chandrabose, Santhosh Ap, Shashi Kant Singh
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Patent number: 11714544Abstract: A gesture definition is provided for intuitively interacting with applications on a multi-screen device. The gesture is defined by one or more user motions signaling a user intent to perform an action on an object based on a context within the multi-screen environment. Unlike traditional gestures, the defined gesture is “context aware.” That is, the gesture may initiate different actions in different contexts. Actions responsive to the gesture include opening an application, sharing data between applications (e.g., cut/paste), and/or attaching files (e.g., to a mail message). App developers can define custom actions responsive to the gesture for particular applications. Avoiding cumbersome, multi-step user inputs and interactions, the actions defined for the gesture may be performed automatically.Type: GrantFiled: June 25, 2020Date of Patent: August 1, 2023Assignee: Microsoft Technology Licensing, LLCInventors: Kartik Datwani, Bhaumik Kalpesh Kaji, Shashi Kant
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Publication number: 20230211582Abstract: The present disclosure provides electrolyte solutions for electrodeposition of zinc-manganese alloys, methods of forming electrolyte solutions, methods of electrodepositing zinc-manganese alloys, and multilayered zinc-manganese alloys. An electrolyte solution for electroplating can include a metal salt, boric acid, an alkali metal chloride, polyethylene glycol, and a hydroxy benzaldehyde. An electrolyte solution can be formed by dissolving a metal salt, boric acid, an alkali metal chloride, polyethylene glycol, and a hydroxy benzaldehyde in water or an aqueous solution. Electrodepositing zinc-manganese alloys on a substrate can include introducing a cathode and an anode into an electrolyte solution comprising a metal salt, boric acid, an alkali metal chloride, polyethylene glycol, and a hydroxy benzaldehyde. Electrodepositing can further include passing a current between the cathode and the anode through the electrolyte solution to deposit zinc and manganese onto the cathode.Type: ApplicationFiled: March 14, 2023Publication date: July 6, 2023Inventors: Stephen P. GAYDOS, Vijaykumar S. IJERI, Om PRAKASH, Shashi Kant TIWARI, Raghuvir SINGH, Sharma PASWAN, Lokesh C. PATHAK
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Patent number: 11645685Abstract: The disclosed systems can regulate access to an online mode for a dynamic transportation matching system. For example, based on a provider efficiency parameter associated with the dynamic transportation matching system, the disclosed systems can prevent a transportation provider device from switching to the online mode within a geographic area. In addition, the disclosed systems can detect a pattern of behavior and, based on a comparison between the pattern of behavior and a behavioral threshold, cause a transportation provider device to switch from the online mode to an offline mode. Further, the disclosed systems can provide a map interface that indicates where a transportation provider device can switch from the offline mode to the online mode. Additionally, the disclosed systems can determine priorities associated with transportation provider devices and, based on the prioritization, selectively allow the transportation provider devices to switch from the offline mode to the online mode.Type: GrantFiled: November 1, 2019Date of Patent: May 9, 2023Assignee: Lyft, Inc.Inventors: Helen Wai-Quen Bentley, Aidan Church, John Torres Fremlin, Matthew Lawrence Green, Mayank Gulati, Yilei Li, Demitri Nava, Mengqi Niu, Daniel Allen Sullivan, Garrett van Ryzin, Rachel Marie Wasko, Shashi Kant Sharma
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Patent number: 11633940Abstract: The present disclosure provides electrolyte solutions for electrodeposition of zinc-manganese alloys, methods of forming electrolyte solutions, methods of electrodepositing zinc-manganese alloys, and multilayered zinc-manganese alloys. An electrolyte solution for electroplating can include a metal salt, boric acid, an alkali metal chloride, polyethylene glycol, and a hydroxy benzaldehyde. An electrolyte solution can be formed by dissolving a metal salt, boric acid, an alkali metal chloride, polyethylene glycol, and a hydroxy benzaldehyde in water or an aqueous solution. Electrodepositing zinc-manganese alloys on a substrate can include introducing a cathode and an anode into an electrolyte solution comprising a metal salt, boric acid, an alkali metal chloride, polyethylene glycol, and a hydroxy benzaldehyde. Electrodepositing can further include passing a current between the cathode and the anode through the electrolyte solution to deposit zinc and manganese onto the cathode.Type: GrantFiled: July 1, 2021Date of Patent: April 25, 2023Assignee: THE BOEING COMPANYInventors: Stephen P. Gaydos, Vijaykumar S. Ijeri, Om Prakash, Shashi Kant Tiwari, Raghuvir Singh, Sharma Paswan, Lokesh C. Pathak
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Publication number: 20220164912Abstract: The present application discloses systems, methods, and computer-readable media that can dynamically control a number of provider devices operating in a prioritized-dispatch mode by determining a range of prioritized-dispatch-mode slots for a target time based on differences between value metrics received by provider devices operating in multiple dispatch modes and sending availability nudges to provider devices based on the range of prioritized-dispatch-mode slots. For instance, the disclosed systems can generate a threshold-noticeable-value difference between historical value metrics received by provider devices while operating in a prioritized-dispatch mode and in a basic-dispatch mode. Based on the threshold-noticeable-value difference, the disclosed systems determine a range of slots for the prioritized-dispatch mode during a target time period for a geographic area.Type: ApplicationFiled: November 20, 2020Publication date: May 26, 2022Inventors: Praveen Athmanathan Panneer Selvam, David Elijah Alpern Boehm, Davide Crapis, Ramon Dario Iglesias, Varun Kashyap Krishnan, Derek William Salama, Shashi Kant Sharma, Xiaoling Charlene Zhou
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Patent number: 11318438Abstract: The present invention relates to an advanced process control system (APC) for a continuous catalytic regeneration reformer with master-slave configuration to control coke on spent catalyst while maximizing heavy reformate octane barrel using online inferential, both for coke content of spent catalyst and octane of heavy reformate. Further, the present invention relates to provide an APC system for a continuous catalytic regeneration reformer with master-slave configuration, which comprises of a master APC, a reactor APC, and a regenerator APC, wherein, the reactor APC and the regenerator APC are linked to the master APC.Type: GrantFiled: May 16, 2018Date of Patent: May 3, 2022Assignee: BHARAT PETROLEUM CORPORATION LIMITEDInventors: Kondapalli Shreya Chaudhary, Shashi Kant Shukla, V Suresh, Susanta Sadhukhan, Jitendra Kumar Verma
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Publication number: 20220100714Abstract: Systems and methods for lifelong schema matching are described. The systems and methods include receiving data comprising a plurality of information categories, classifying each information category according to a schema comprising a plurality of classes, wherein the classification is performed by a neural network classifier trained based on a lifelong learning technique using a plurality of exemplar training sets, wherein each of the exemplar training sets includes a plurality of examples corresponding to one of the classes, and wherein the examples are selected based on a metric indicating how well each of the examples represents the corresponding class, and adding the data to a database based on the classification, wherein the database is organized according to the schema.Type: ApplicationFiled: September 29, 2020Publication date: March 31, 2022Inventors: Handong Zhao, Yikun Xian, Sungchul Kim, Tak Yeon Lee, Nikhil Belsare, Shashi Kant Rai, Vasanthi Holtcamp, Thomas Jacobs, Duy-Trung T. Dinh, Caroline Jiwon Kim
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Publication number: 20210405862Abstract: A gesture definition is provided for intuitively interacting with applications on a multi-screen device. The gesture is defined by one or more user motions signaling a user intent to perform an action on an object based on a context within the multi-screen environment. Unlike traditional gestures, the defined gesture is “context aware.” That is, the gesture may initiate different actions in different contexts. Actions responsive to the gesture include opening an application, sharing data between applications (e.g., cut/paste), and/or attaching files (e.g., to a mail message). App developers can define custom actions responsive to the gesture for particular applications. Avoiding cumbersome, multi-step user inputs and interactions, the actions defined for the gesture may be performed automatically.Type: ApplicationFiled: June 25, 2020Publication date: December 30, 2021Applicant: Microsoft Technology Licensing, LLCInventors: Kartik DATWANI, Bhaumik Kalpesh KAJI, Shashi KANT
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Patent number: 11161821Abstract: The present invention relates to an improved process for the purification of Eltrombopag olamine of compound of formula (2). The present invention also relates to an improved process for the preparation of Eltrombopag olamine intermediates and further conversion to Eltrombopag olamine of a compound of formula (2).Type: GrantFiled: May 16, 2019Date of Patent: November 2, 2021Assignee: Aurobindo Pharma Ltd.Inventors: Moturu Venkata Ramakrishna Murthy, Tiwari Shashi Kant, Nadakudity Sailendra Kumar, Samala Bhanuchander, Rajesh Chennuri, Srinivasa Chary Katuroju, Sivakumaran Meenakshisunderam
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Publication number: 20210324531Abstract: The present disclosure provides electrolyte solutions for electrodeposition of zinc-manganese alloys, methods of forming electrolyte solutions, methods of electrodepositing zinc-manganese alloys, and multilayered zinc-manganese alloys. An electrolyte solution for electroplating can include a metal salt, boric acid, an alkali metal chloride, polyethylene glycol, and a hydroxy benzaldehyde. An electrolyte solution can be formed by dissolving a metal salt, boric acid, an alkali metal chloride, polyethylene glycol, and a hydroxy benzaldehyde in water or an aqueous solution. Electrodepositing zinc-manganese alloys on a substrate can include introducing a cathode and an anode into an electrolyte solution comprising a metal salt, boric acid, an alkali metal chloride, polyethylene glycol, and a hydroxy benzaldehyde. Electrodepositing can further include passing a current between the cathode and the anode through the electrolyte solution to deposit zinc and manganese onto the cathode.Type: ApplicationFiled: July 1, 2021Publication date: October 21, 2021Inventors: Stephen P. GAYDOS, Vijaykumar S. IJERI, Om PRAKASH, Shashi Kant TIWARI, Raghuvir SINGH, Sharma PASWAN, Lokesh C. PATHAK
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Patent number: 11128507Abstract: A method for signal distortion mitigation in a communication device with at least one transmitter in a communication system, generating a signal for transmission for each of the at least one transmitter; performing Peak-to-Average Power Ratio (PAPR) reduction and spectrum shaping of each of the generated signal to provide a distorted signal for transmission; determining signal distortions of the distorted signals, and precoding the determined signal distortions. The method further generating a composite signal for transmission based on the precoded determined signal distortions and the generated signal for transmission, to provide a composite signal, and transmitting the composite signal to at least one receiving communication device, wherein the precoding enables mitigating the signal distortion impact on the at least one receiver.Type: GrantFiled: June 14, 2017Date of Patent: September 21, 2021Assignee: Telefonaktiebolaget LM Ericsson (publ)Inventors: Shashi Kant, Eric Nordström, David Astely
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Publication number: 20210230120Abstract: The present invention relates to an improved process for the purification of Eltrombopag olamine of compound of formula (2). The present invention also relates to an improved process for the preparation of Eltrombopag olamine intermediates and further conversion to Eltrombopag olamine of a compound of formula (2).Type: ApplicationFiled: May 16, 2019Publication date: July 29, 2021Applicant: Aurobindo Pharma LtdInventors: Moturu Venkata Ramakrishna MURTHY, Tiwari Shashi KANT, Nadakudity Sailendra KUMAR, Samala BHANUCHANDER, Rajesh CHENNURI, Srinivasa Chary KATUROJU, Sivakumaran MEENAKSHISUNDERAM
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Patent number: 11066752Abstract: The present disclosure provides electrolyte solutions for electrodeposition of zinc-manganese alloys, methods of forming electrolyte solutions, methods of electrodepositing zinc-manganese alloys, and multilayered zinc-manganese alloys. An electrolyte solution for electroplating can include a metal salt, boric acid, an alkali metal chloride, polyethylene glycol, and a hydroxy benzaldehyde. An electrolyte solution can be formed by dissolving a metal salt, boric acid, an alkali metal chloride, polyethylene glycol, and a hydroxy benzaldehyde in water or an aqueous solution. Electrodepositing zinc-manganese alloys on a substrate can include introducing a cathode and an anode into an electrolyte solution comprising a metal salt, boric acid, an alkali metal chloride, polyethylene glycol, and a hydroxy benzaldehyde. Electrodepositing can further include passing a current between the cathode and the anode through the electrolyte solution to deposit zinc and manganese onto the cathode.Type: GrantFiled: May 4, 2018Date of Patent: July 20, 2021Assignee: THE BOEING COMPANYInventors: Stephen P. Gaydos, Vijaykumar S. Ijeri, Om Prakash, Shashi Kant Tiwari, Raghuvir Singh, Sharma Paswan, Lokesh C. Pathak
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Publication number: 20210080269Abstract: Methods and systems for correcting errors in transportation routes are provided. In one embodiment, a method is provided that includes receiving a transportation request that includes at least two locations. A first route prediction may be generated based on a first set of previously-completed routes associated with the at least two locations. A first predictive model may compare the first route prediction with route information associated with a second set of previously-completed routes identified based on the first route prediction. A second route prediction may be generated based on the comparison and may be sent to a mobile device for presentation to a user.Type: ApplicationFiled: September 12, 2019Publication date: March 18, 2021Inventors: Shashi Kant Sharma, Xianzhe Liang, Ricky Chachra, Xabier Azagirre Lekuona, Gerardo dela Rosa Michicol, Piyush Garg, Adriel Frederick, Chirag Chhagan Chheda, Jack Chun Zhou, Amarnath Pundalika Pai