Patents by Inventor Pavel Sokolov
Pavel Sokolov 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: 20240304301Abstract: The example systems, methods, and/or computer-readable media described herein help with design treatment plans for orthodontic treatments. Treatment templates expressed according to treatment domain-specific protocols may be processed to provide treatment planning software, including automated or real-time treatment planning software, that accommodates treatment preferences of a practitioner and/or patient data relevant to a treatment plan. These methods and systems may be also be useful for planning, designing and producing as series of dental appliances (e.g., aligners).Type: ApplicationFiled: May 6, 2024Publication date: September 12, 2024Inventors: Adi LEVIN, Anton LAPSHIN, Behnam J. FOROODIAN, Eric P. MEYER, Konstantin TENZIN, Andrey CHEKHONIN, Pavel SOKOLOV, René M. STERENTAL, Jason RAMOS, Evgeniy MALASHKIN, Anna SIVAKOVA, Michael FLANAGAN
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Patent number: 11978547Abstract: The example systems, methods, and/or computer-readable media described herein help with design treatment plans for orthodontic treatments. Treatment templates expressed according to treatment domain-specific protocols may be processed to provide treatment planning software, including automated or real-time treatment planning software, that accommodates treatment preferences of a practitioner and/or patient data relevant to a treatment plan. These methods and systems may be also be useful for planning, designing and producing as series of dental appliances (e.g., aligners).Type: GrantFiled: April 30, 2019Date of Patent: May 7, 2024Assignee: Align Technology, Inc.Inventors: Adi Levin, Anton Lapshin, Behnam J. Foroodian, Eric P. Meyer, Konstantin Tenzin, Andrey Chekhonin, Pavel Sokolov, René M. Sterental, Jason Ramos, Evgeniy Malashkin, Anna Sivakova, Michael Flanagan
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Publication number: 20240099814Abstract: Systems and methods for rapidly and reliably determining an arch width of a patient's dental arch. A three-dimensional (3D) model of a patient's teeth, including a target tooth, can be received. Dental features from the 3D model may be extracted. The dental features may include a point of intersection between an occlusal surface of a tooth and a long axis of the tooth. An arch width between the target tooth and an opposing tooth may be determined based on the extracted dental features.Type: ApplicationFiled: December 1, 2023Publication date: March 28, 2024Inventors: Svetlana MAKARENKOVA, Ilya AGAFONOV, Boris LIKHTMAN, Pavel SOKOLOV, Vladimir FEDOROV
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Patent number: 11899685Abstract: Authorization is divided between a control plane and a data plane for sharing database data. A producer database engine can create a shared database via a data plane interface. A producer can then authorize access to the shared database via a control plane interface to a consumer. A consumer can associate the authorization granted to the consumer with a consumer database engine via the control plane interface.Type: GrantFiled: December 10, 2021Date of Patent: February 13, 2024Assignee: Amazon Technologies, Inc.Inventors: Ippokratis Pandis, Jingyi Qing, Dengfeng Li, Pavel Sokolov, Eric Ray Hotinger, Mohammad Foyzur Rahman, William Michael McCreedy, Wenchuan An, Vivek Ramamoorthy, Chenqin Xu, Maximiliano Maccanti
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Patent number: 11877906Abstract: Systems and methods for rapidly and reliably determining an arch with of a patient's dental arch. A first portion of a 3D model of a patient's dentition is identified that corresponds to a first target tooth, the first portion of the 3D model is associated with one or more attributes of the first target tooth. A second portion of the 3D model is identified that corresponds to a second target tooth opposing the first target tooth. The second portion is associated with one or more attributes of the second target tooth. The arch width is automatically measured based on the attributes of the first and second target teeth. A graphic representing the arch width is overlayed on the patient's dentition.Type: GrantFiled: October 7, 2022Date of Patent: January 23, 2024Assignee: Align Technology, Inc.Inventors: Svetlana Makarenkova, Ilya Agafonov, Boris Likhtman, Pavel Sokolov, Vladimir Fedorov
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Publication number: 20230169048Abstract: Idle periods may be for management actions at processing clusters for managed databases. A leader node of a processing cluster for a managed database may monitor a network endpoint at a proxy service associated with a database managed by the database service. An idle period for the database may be detected. A management action for the processing cluster may be determined to be performed during the detected idle period. The leader node may cause the determined management action to be performed.Type: ApplicationFiled: November 26, 2021Publication date: June 1, 2023Applicant: Amazon Technologies, Inc.Inventors: Ippokratis Pandis, Eric Ray Hotinger, Bruce William McGaughy, Naresh Chainani, Neeraja Rentachintala, Zhixing Ma, Pulkit Jagdishchandra Bhavsar, Chao Duan, William Michael McCreedy, Pavel Sokolov, Sanjay Wangoo
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Publication number: 20230033851Abstract: Systems and methods for rapidly and reliably determining an arch with of a patient's dental arch. A patient's dentition may be scanned and/or segmented. Arch width may be determined between points of intersection on the occlusal surface and a long axis of each tooth between one or more of: canine, first bicuspid, first primary molar, second bicuspid, second primary molar, and permanent first molar. Arch widths of different modified versions of the patient's dentition may be dynamically compared the patient's starting dentition, or to each other, and may be dynamically updated as the user modifies or switches between one or more 3D models of the patient's dentition.Type: ApplicationFiled: October 7, 2022Publication date: February 2, 2023Inventors: Svetlana MAKARENKOVA, Ilya AGAFONOV, Boris LIKHTMAN, Pavel SOKOLOV, Vladimir FEDOROV
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Patent number: 11521732Abstract: In various implementations, computer-implemented method, such as one executed on a computer system or on instructions stored on computer-readable media may include: receiving from a user device associated with a user, a request to access one or more treatment plans for patient; identifying a treatment template for user, the treatment template representing treatment preferences of the user, the treatment template being expressed according to treatment domain-specific protocols; processing the treatment template with the treatment domain-specific protocols to convert one or more parts of the treatment template into one or more runtime elements that interactively display customized user interface elements related to the treatment plan, the customized user interface elements configured to provide one or more customized user interactions with the treatment plan in accordance with the treatment preferences of the user; and providing instructions to display the one or more runtime elements on the user device.Type: GrantFiled: April 30, 2019Date of Patent: December 6, 2022Assignee: Align Technology, Inc.Inventors: Adi Levin, Anton Lapshin, Behnam J. Foroodian, Eric P. Meyer, Konstantin Tenzin, Andrey Chekhonin, Pavel Sokolov, René M. Sterental, Jason Ramos, Evgeniy Malashkin, Anna Sivakova, Michael Flanagan
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Patent number: 11464604Abstract: Systems and methods for rapidly and reliably determining an arch with of a patient's dental arch. A patient's dentition may be scanned and/or segmented. Arch width may be determined between points of intersection on the occlusal surface and a long axis of each tooth between one or more of: canine, first bicuspid, first primary molar, second bicuspid, second primary molar, and permanent first molar. Arch widths of different modified versions of the patient's dentition may be dynamically compared the patient's starting dentition, or to each other, and may be dynamically updated as the user modifies or switches between one or more 3D models of the patient's dentition.Type: GrantFiled: June 28, 2019Date of Patent: October 11, 2022Assignee: Align Technology, Inc.Inventors: Svetlana Makarenkova, Ilya Agafonov, Boris Likhtman, Pavel Sokolov, Vladimir Fedorov
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Patent number: 11449389Abstract: The embodiments set forth techniques for performing incremental backups of a source file system volume (FSV) managed by a source computing device. According to some embodiments, the source computing device can be configured to generate a current snapshot of the source FSV, where the current snapshot complements a previous snapshot of the source FSV (e.g., established during a previous backup). In some cases, to free up storage space, the data for files belonging to the source FSV can be stripped from the previous snapshot (where metadata for the files remains intact). Next, the source computing device can generate, within a destination storage device, a second snapshot of a destination FSV (that corresponds to the source FSV). In turn, the source computing device identifies changes made to the source FSV based on the current snapshot and the previous snapshot, and reflects the changes within the second snapshot of the destination FSV.Type: GrantFiled: December 13, 2017Date of Patent: September 20, 2022Assignee: Apple Inc.Inventors: Pavel Cisler, Pavel Sokolov, Dominic B. Giampaolo, Eric A. Weiss, Christopher A. Wolf
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Patent number: 11385816Abstract: Representative embodiments set forth herein disclose techniques for implementing improved links between paths of one or more file systems. According to some embodiments, techniques are disclosed for establishing a system volume and a data volume within a container. According to other embodiments, techniques are disclosed for establishing a link from a source path of a system volume within a container to a target path of a data volume within the container. According to yet other embodiments, techniques are disclosed for determining whether to allow a file system operation on a data volume of a container based on at least determining whether a target path is associated with a reference to a source path.Type: GrantFiled: May 20, 2020Date of Patent: July 12, 2022Inventors: Vivek Verma, Damien P. Sorresso, Pavel Sokolov, Pierre-Olivier J. Martel, Eric B. Tamura, Yoni Baron
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Publication number: 20200379662Abstract: Representative embodiments set forth herein disclose techniques for implementing improved links between paths of one or more file systems. According to some embodiments, techniques are disclosed for establishing a system volume and a data volume within a container. According to other embodiments, techniques are disclosed for establishing a link from a source path of a system volume within a container to a target path of a data volume within the container. According to yet other embodiments, techniques are disclosed for determining whether to allow a file system operation on a data volume of a container based on at least determining whether a target path is associated with a reference to a source path.Type: ApplicationFiled: May 20, 2020Publication date: December 3, 2020Inventors: Vivek VERMA, Damien P. SORRESSO, Pavel SOKOLOV, Pierre-Olivier J. MARTEL, Eric B. TAMURA, Yoni BARON
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Patent number: 10599619Abstract: The described embodiments set forth techniques for managing the fragmentation of files at a computing device. Specifically, the techniques involve, for a given file, analyzing different extents of the file under a “segment window” basis to identify whether a fragmentation threshold is satisfied between the extents that correspond to the scope of the segment window. In turn, for each segment window that satisfies the threshold level of fragmentation, (1) the data for the extents is copied into an allocated area of contiguous memory, and (2) the extents are updated to reference the copied data. Additionally, the original data referred to by the extents can be freed for usage within the computing device, thereby increasing storage space. In this manner, the overall fragmentation of the file is substantially reduced under the segment window basis, thereby improving the overall performance of the computing device.Type: GrantFiled: September 29, 2017Date of Patent: March 24, 2020Assignee: Apple Inc.Inventors: William R. Stouder-Studenmund, Pavel Sokolov
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Publication number: 20200000554Abstract: Systems and methods for rapidly and reliably determining an arch with of a patient's dental arch. A patient's dentition may be scanned and/or segmented. Arch width may be determined between points of intersection on the occlusal surface and a long axis of each tooth between one or more of: canine, first bicuspid, first primary molar, second bicuspid, second primary molar, and permanent first molar. Arch widths of different modified versions of the patient's dentition may be dynamically compared the patient's starting dentition, or to each other, and may be dynamically updated as the user modifies or switches between one or more 3D models of the patient's dentition.Type: ApplicationFiled: June 28, 2019Publication date: January 2, 2020Inventors: Svetlana MAKARENKOVA, Ilya AGAFONOV, Boris LIKHTMAN, Pavel SOKOLOV, Vladimir FEDOROV
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Publication number: 20190328487Abstract: The example systems, methods, and/or computer-readable media described herein help with design treatment plans for orthodontic treatments. Treatment templates expressed according to treatment domain-specific protocols may be processed to provide treatment planning software, including automated or real-time treatment planning software, that accommodates treatment preferences of a practitioner and/or patient data relevant to a treatment plan. These methods and systems may be also be useful for planning, designing and producing as series of dental appliances (e.g., aligners).Type: ApplicationFiled: April 30, 2019Publication date: October 31, 2019Inventors: Adi LEVIN, Anton LAPSHIN, Behnam J. FOROODIAN, Eric P. MEYER, Konstantin TENZIN, Andrey CHEKHONIN, Pavel SOKOLOV, René M. STERENTAL, Jason RAMOS, Evgeniy MALASHKIN, Anna SIVAKOVA
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Publication number: 20190333622Abstract: The example systems, methods, and/or computer-readable media described herein help with design treatment plans for orthodontic treatments. Treatment templates expressed according to treatment domain-specific protocols may be processed to provide treatment planning software, including automated or real-time treatment planning software, that accommodates treatment preferences of a practitioner and/or patient data relevant to a treatment plan. These methods and systems may be also be useful for planning, designing and producing as series of dental appliances (e.g., aligners).Type: ApplicationFiled: April 30, 2019Publication date: October 31, 2019Inventors: Adi LEVIN, Anton LAPSHIN, Behnam J. FOROODIAN, Eric P. MEYER, Konstantin TENZIN, Andrey CHEKHONIN, Pavel SOKOLOV, Rene M. STERENTAL, Jason RAMOS, Evgeniy MALASHKIN, Anna SIVAKOVA
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Publication number: 20190328488Abstract: The example systems, methods, and/or computer-readable media described herein help with design treatment plans for orthodontic treatments. Treatment templates expressed according to treatment domain-specific protocols may be processed to provide treatment planning software, including automated or real-time treatment planning software, that accommodates treatment preferences of a practitioner and/or patient data relevant to a treatment plan. These methods and systems may be also be useful for planning, designing and producing as series of dental appliances (e.g., aligners).Type: ApplicationFiled: April 30, 2019Publication date: October 31, 2019Inventors: Adi LEVIN, Anton LAPSHIN, Behnam J. FOROODIAN, Eric P. MEYER, Konstantin TENZIN, Andrey CHEKHONIN, Pavel SOKOLOV, René M. STERENTAL, Jason RAMOS, Evgeniy MALASHKIN, Anna SIVAKOVA
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Publication number: 20180349402Abstract: The described embodiments set forth techniques for managing the fragmentation of files at a computing device. Specifically, the techniques involve, for a given file, analyzing different extents of the file under a “segment window” basis to identify whether a fragmentation threshold is satisfied between the extents that correspond to the scope of the segment window. In turn, for each segment window that satisfies the threshold level of fragmentation, (1) the data for the extents is copied into an allocated area of contiguous memory, and (2) the extents are updated to reference the copied data. Additionally, the original data referred to by the extents can be freed for usage within the computing device, thereby increasing storage space. In this manner, the overall fragmentation of the file is substantially reduced under the segment window basis, thereby improving the overall performance of the computing device.Type: ApplicationFiled: September 29, 2017Publication date: December 6, 2018Inventors: William R. STOUDER-STUDENMUND, Pavel SOKOLOV
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Publication number: 20180349227Abstract: The embodiments set forth techniques for performing incremental backups of a source file system volume (FSV) managed by a source computing device. According to some embodiments, the source computing device can be configured to generate a current snapshot of the source FSV, where the current snapshot complements a previous snapshot of the source FSV (e.g., established during a previous backup). In some cases, to free up storage space, the data for files belonging to the source FSV can be stripped from the previous snapshot (where metadata for the files remains intact). Next, the source computing device can generate, within a destination storage device, a second snapshot of a destination FSV (that corresponds to the source FSV). In turn, the source computing device identifies changes made to the source FSV based on the current snapshot and the previous snapshot, and reflects the changes within the second snapshot of the destination FSV.Type: ApplicationFiled: December 13, 2017Publication date: December 6, 2018Inventors: Pavel CISLER, Pavel SOKOLOV, Dominic B. GIAMPAOLO, Eric A. WEISS, Christopher A. WOLF
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Publication number: 20060127723Abstract: A fuel cell includes a plurality of power-producing electrode-electrolyte assemblies and heat-conducting elements. Cathode air supplied to the fuel cell is heated inside the fuel cell by fuel cell by-product heat via the heat-conducting elements.Type: ApplicationFiled: December 15, 2004Publication date: June 15, 2006Applicant: General Electric CompanyInventors: Timothy Rehg, Pavel Sokolov, Deliang Yang