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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Patent number: 10906866Abstract: The present invention provides a process for the preparation of N-phenoxyisopropyl ethanolamine of Formula (II) and its conversion to Phenoxybenzamine of Formula (I) or pharmaceutically acceptable salts thereof.Type: GrantFiled: January 10, 2018Date of Patent: February 2, 2021Assignee: Aurobindo Pharma Ltd.Inventors: Shashi Kant Tiwari, Rajesh Chennuri, Bhanuchandar Samala, Venkata Ramana Kintali, Sivakumaran Meenakshisunderam
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Publication number: 20210023118Abstract: Methods for treating cancer, and for reducing angiogenesis in a tissue, comprising administering one or more of a miR-371 oligonucleotide; a miR-146 oligonucleotide; or an inhibitor of MLK2/3 activity.Type: ApplicationFiled: April 5, 2019Publication date: January 28, 2021Inventors: Shashi Kant, Siobhan Craige, John F. Keaney, JR., Roger J. Davis
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Publication number: 20210016240Abstract: 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: ApplicationFiled: May 16, 2018Publication date: January 21, 2021Applicant: BHARAT PETROLEUM CORPORATION LIMITEDInventors: Kondapalli Shreya CHAUDHARY, Shashi Kant SHUKLA, V SURESH, Susanta SADHUKHAN, Jitendra Kumar VERMA
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Publication number: 20200410624Abstract: 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: November 1, 2019Publication date: December 31, 2020Inventors: 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: 20200408551Abstract: 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: November 1, 2019Publication date: December 31, 2020Inventors: 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: 20200410865Abstract: 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: November 1, 2019Publication date: December 31, 2020Inventors: 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: 20200354847Abstract: The present disclosure provides electrolyte solutions for electrodeposition of zinc-iron alloys, methods of forming electrolyte solutions, and methods of electrodepositing zinc-iron alloys. An electrolyte solution for electroplating can include an alkali metal citrate, an alkali metal acetate, a citric acid, and glycine with a metal salt. An electrolyte solution can be formed by dissolving an alkali metal citrate, an alkali metal acetate, a citric acid, and glycine in water or an aqueous solution. Electrodepositing zinc-iron alloys on a substrate can include introducing a cathode and an anode into an electrolyte solution comprising an alkali metal citrate, an alkali metal acetate, a citric acid, and glycine. Electrodepositing can further include passing a current between the cathode and the anode through the electrolyte solution to deposit zinc and iron onto the cathode.Type: ApplicationFiled: July 28, 2020Publication date: November 12, 2020Inventors: Stephen P. GAYDOS, Vijaykumar S. IJERI, Om PRAKASH, Trilochan MISHRA, Raghuvir SINGH, Shashi Kant TIWARI
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Patent number: 10832294Abstract: 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: November 10, 2020Assignee: 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: 10791538Abstract: Embodiments of the present invention are directed to cloud-based data synchronization. Two or more devices associated with an account in a cloud can be synched. The account is configured to manage publishing and subscription relationships between these devices such that a first device is able to publish data to the account in the cloud, and a second device is able to subscribe to the data from the account. In some embodiments, the account is configured to determine whether the second device has proper dependencies for subscribing to the data, and to prevent the second device from subscribing to the data upon determining that the second device does not have proper dependencies. However, in some embodiments, proper dependencies are automatically satisfied by downloading and installing a tool configured to properly process the data (e.g., execute applications) on the second device.Type: GrantFiled: July 6, 2012Date of Patent: September 29, 2020Assignee: BlueStack Systems, Inc.Inventors: Suman Saraf, David P. Reese, Jr., Harvinder Singh Sawhney, Shashi Kant Sharma
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Patent number: 10767274Abstract: The present disclosure provides electrolyte solutions for electrodeposition of zinc-iron alloys, methods of forming electrolyte solutions, and methods of electrodepositing zinc-iron alloys. An electrolyte solution for electroplating can include an alkali metal citrate, an alkali metal acetate, a citric acid, and glycine with a metal salt. An electrolyte solution can be formed by dissolving an alkali metal citrate, an alkali metal acetate, a citric acid, and glycine in water or an aqueous solution. Electrodepositing zinc-iron alloys on a substrate can include introducing a cathode and an anode into an electrolyte solution comprising an alkali metal citrate, an alkali metal acetate, a citric acid, and glycine. Electrodepositing can further include passing a current between the cathode and the anode through the electrolyte solution to deposit zinc and iron onto the cathode.Type: GrantFiled: August 18, 2017Date of Patent: September 8, 2020Assignee: THE BOEING COMPANYInventors: Stephen P. Gaydos, Vijaykumar S. Ijeri, Om Prakash, Trilochan Mishra, Raghuvir Singh, Shashi Kant Tiwari
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Patent number: 10737183Abstract: Embodiments of the present invention are directed to ancillary game data. Ancillary game data, including game state events and/or visual/audio elements, is generated from and stored in association with raw or original game play footage by a game state data (GSD) service. The ancillary game data is available for subsequently composition back with the corresponding original media stream, thereby generating a smart media stream, for viewers to consume. Game state events are available for searching and sorting archived media streams or for performing general data mining.Type: GrantFiled: October 27, 2016Date of Patent: August 11, 2020Assignee: BlueStack Systems, Inc.Inventors: Shashi Kant Sharma, Sabrina Marie Waun-Mei Li, Julia Larson, David P. Reese, Jr.
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Patent number: 10674504Abstract: There is provided mechanisms for scheduling subframes at protocol layer L1. The method is performed by a network device. A method comprises obtaining, at the protocol layer L1, an indication of an occurrence of Listen Before Talk (LBT) failure for transmission of a subframe in an unlicensed frequency spectrum. The method comprises storing, in an L1 buffer, data of the subframe to be transmitted in the unlicensed frequency spectrum as a result thereof.Type: GrantFiled: December 18, 2015Date of Patent: June 2, 2020Assignee: Telefonaktiebolaget LM Ericsson (publ)Inventors: Carola Faronius, Franz Heiser, Ying Sun, Yu Yang, Henrik Olson, Hyuckchan Kwon, Shashi Kant
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Patent number: 10611865Abstract: The present invention provides a solid organomagnesium precursor having formula {Mg(OR?)X}.a{MgX2}.b{Mg(OR?)2}.c{R?OH}, wherein R? is selected from a hydrocarbon group, X is selected from a halide group, and a:b:c is in range of 0.01-0.5:0.01-0.5:0.01-5 and process for preparing the same, said process comprising contacting a magnesium source with a solvating agent, an organohalide and an alcohol to obtain the solid organomagnesium precursor. The present invention also provides a process for preparing a catalyst system using the organomagnesium precursor and its use thereof for polymerization of olefins.Type: GrantFiled: August 20, 2018Date of Patent: April 7, 2020Assignee: INDIAN OIL CORPORATION LIMITEDInventors: Sukhdeep Kaur, Gurmeet Singh, Bhasker Bantu, Naresh Kumar, Gurpreet Singh Kapur, Shashi Kant, Biswajit Basu, Ravinder Kumar Malhotra
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Publication number: 20200052945Abstract: 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: ApplicationFiled: June 14, 2017Publication date: February 13, 2020Applicant: Telefonaktiebolaget LM Ericsson (publ)Inventors: Shashi KANT, Eric NORDSTRÖM, David ASTELY
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Publication number: 20190394765Abstract: A method performed by a wireless device (121) for enabling determination of transmission parameters for a transmission to a network node (110) in a wireless communications network (100) is provided. The wireless device (121) obtains at least one antenna characteristic of an antenna (730) comprised in the wireless device (121). The wireless device (121) also transmits information indicating the at least one antenna characteristic to a network node (110) in the wireless communications network (100). A wireless device (121) for enabling determination of transmission parameters for a transmission to a network node (110) in a wireless communications network (100) is also provided. Furthermore, a network node (110) and a method therein for enabling determination of transmission parameters for a transmission to a wireless device (121) in a wireless communications network (100) are also provided.Type: ApplicationFiled: May 12, 2016Publication date: December 26, 2019Applicant: TELEFONAKTIEBOLAGET LM ERICSSON (PUBL)Inventors: Vidit SAXENA, Shashi KANT, Amit SINGH
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Publication number: 20190359553Abstract: The present invention provides a process for the preparation of N-phenoxyisopropyl ethanolamine of Formula (II) and its conversion to Phenoxybenzamine of Formula (I) or pharmaceutically acceptable salts thereof.Type: ApplicationFiled: January 10, 2018Publication date: November 28, 2019Applicant: Aurobindo Pharma LtdInventors: Shashi Kant Tiwari, Rajesh Chennuri, Bhanuchandar Samala, Venkata Ramana Kintali, Sivakumaran Meenakshisunderam
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Publication number: 20190264344Abstract: 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: May 4, 2018Publication date: August 29, 2019Inventors: Stephen P. GAYDOS, Vijaykumar S. IJERI, Om PRAKASH, Shashi Kant TIWARI, Raghuvir SINGH, Sharma PASWAN, Lokesh C. PATHAK
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Patent number: 10360081Abstract: Embodiments of the present invention are directed to an application broker, which can be a program on a client device, a service in a cloud accessible by the client device or both. The client device typically runs a guest environment in a host environment. A user is able to search for an application on the application broker configured to interface with one or more application sources. In some embodiments, the application broker is able to intelligently search, download and/or install the application in the guest operating system of the client device with minimal or no user intervention. The application is typically executed in an application player associated with the guest environment. In some embodiments, the application player is configured as the application broker. In some embodiments, the application broker can provide suggested applications to download when the client device is communicatively coupled with the one or more application sources.Type: GrantFiled: November 13, 2014Date of Patent: July 23, 2019Assignee: Bluestack Systems, Inc.Inventors: Ambreesh Bangur, Shashi Kant Sharma, Harvinder Singh Sawhney
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Patent number: 10263675Abstract: The disclosure relates to a method performed in a wireless device for establishing a feedback metric. The wireless device is configured with a grouping of available precoding matrix indicators, PMIs, of a codebook, the grouping comprising two or more groups each of which comprises an exclusive subset of the available precoding matrix indicators, PMIs. The method comprises: identifying for one or more rank indicator, RI, hypotheses a respective parent PMI providing the highest link quality metric, LQM; establishing for one or more of the identified parent PMIs, a respective set of child PMIs; determining a link quality metric, LQM for each child PMIs of the established one or more sets of child PMIs; and establishing the feedback metric to be the child PMI having the highest link quality metric, LQM. The disclosure also relates to a wireless device, method in a network node, network node, computer programs and computer program products.Type: GrantFiled: November 25, 2014Date of Patent: April 16, 2019Assignee: TELEFONAKTIEBOLAGET LM ERICSSON (publ)Inventors: Shashi Kant, Sairamesh Nammi, Goutam Ramamurthy
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Patent number: 10255080Abstract: Embodiments of the present invention are directed to a method of providing non-native notifications and system thereof. These notifications are generated by non-native applications that can be executed on a target device, specifically within a guest environment on the target device, or can be executed on a physically disjoint source device that is communicatively coupled with the target device via a local pairing mechanism or a service in a cloud. The application player and the source device are able to capture these non-native notifications. The target device is able to receive and present these non-native notifications to a user. Notifications include alerts, reminders, updates and messages generated by non-native applications. The user does not need to access the non-native applications, or the application player or source device they are executing on to see the non-native notifications. Instead, the user views these non-native notifications at a central location on the target device.Type: GrantFiled: July 13, 2016Date of Patent: April 9, 2019Assignee: BlueStack Systems, Inc.Inventors: Shashi Kant Sharma, Sharad Agrawal, Suman Saraf, David P. Reese, Jr.