Patents by Inventor Sergey KONDRATOV
Sergey KONDRATOV 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: 20230290044Abstract: Using various embodiments, methods and systems to determine viewability metrics of a multidimensional object in a multidimensional digital environment are described. In one embodiment, a system is configured to render a viewport of a digital environment displayed on a graphical user interface using a first camera, wherein the viewport includes an object of interest. Thereafter the system is configured to determine a metric of visibility of the object of interest.Type: ApplicationFiled: May 17, 2023Publication date: September 14, 2023Inventors: Joel LaMontagne, SERGEY KONDRATOV, Igor Bitny
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Patent number: 11748911Abstract: Methods, systems, and techniques are disclosed to determine a pixel count of an object of interest in a multidimensional digital environment, based on the texture of the multidimensional object considered as an object of interest. In one embodiment, a technique to determine a percentage of an object of interest displayed in a viewport is disclosed. The technique includes rendering using a shader function the object of interest with a first color, rendering, using the shader function, the remainder of a scene displayed on the viewport with a second color, and determining a pixel count of pixels rendered with the first color to determine the percentage of an object of interest displayed on the viewport.Type: GrantFiled: November 1, 2020Date of Patent: September 5, 2023Assignee: Trivver, Inc.Inventors: Sergey Kondratov, Igor Bitny, Alexander Arbuznikov
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Patent number: 11741663Abstract: Using various embodiments, methods and systems to determine viewability metrics of a multidimensional object in a multidimensional digital environment are described. In one embodiment, a system is configured to render a viewport of a multidimensional digital environment displayed on a graphical user interface to determine a screen coverage metric of an object of interest on the viewport. Thereafter, the system is configured to render the viewport of the multidimensional digital environment displayed on the graphical user interface to determine a metric of visibility of the object of interest on the viewport.Type: GrantFiled: May 24, 2021Date of Patent: August 29, 2023Assignee: Trivver, Inc.Inventors: Joel LaMontagne, Sergey Kondratov, Igor Bitny
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Patent number: 11741626Abstract: Using various embodiments, systems, methods and techniques to determine whether a surface of the multidimensional object is projected on a camera on a viewport space displayed on a graphical user interface. This includes projecting a first vector normal to a surface of the multidimensional object, where the multidimensional object is rendered in an electronically generated multidimensional environment, projecting a second vector from the camera to the surface of the multidimensional object, determining an angle between the first vector and the second vector, and based on the angle determining whether the surface is projected on the viewport space.Type: GrantFiled: January 14, 2021Date of Patent: August 29, 2023Assignee: Trivver, Inc.Inventors: Igor Bitny, Sergey Kondratov
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Publication number: 20210279946Abstract: Using various embodiments, methods and systems to determine viewability metrics of a multidimensional object in a multidimensional digital environment are described. In one embodiment, a system is configured to render a viewport of a multidimensional digital environment displayed on a graphical user interface to determine a screen coverage metric of an object of interest on the viewport. Thereafter, the system is configured to render the viewport of the multidimensional digital environment displayed on the graphical user interface to determine a metric of visibility of the object of interest on the viewport.Type: ApplicationFiled: May 24, 2021Publication date: September 9, 2021Inventors: Joel LaMontagne, SERGEY KONDRATOV, Igor Bitny
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Patent number: 11043022Abstract: Using various embodiments, methods and systems to determine viewability metrics of a multidimensional object in a multidimensional digital environment are described. In one embodiment, a system is configured to render a viewport of the multidimensional digital environment displayed on the graphical user interface. The viewport includes the object of interest. The object of interest includes a multidimensional digital object. The object of interest is rendered with a first set of colors. The system is further configured to determine a first number of pixels representing a total number of pixels in the first set of colors and to determine a second number of pixels in the viewport representing a total number of pixels of the viewport. Thereafter, a ratio is calculated by dividing the first number of pixels by the second number of pixels. The metric of viewability is then derived by the calculated ratio.Type: GrantFiled: January 30, 2019Date of Patent: June 22, 2021Assignee: Trivver, Inc.Inventors: Joel LaMontagne, Sergey Kondratov, Igor Bitny
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Publication number: 20210166414Abstract: Using various embodiments, systems, methods and techniques to determine whether a surface of the multidimensional object is projected on a camera on a viewport space displayed on a graphical user interface. This includes projecting a first vector normal to a surface of the multidimensional object, where the multidimensional object is rendered in an electronically generated multidimensional environment, projecting a second vector from the camera to the surface of the multidimensional object, determining an angle between the first vector and the second vector, and based on the angle determining whether the surface is projected on the viewport space.Type: ApplicationFiled: January 14, 2021Publication date: June 3, 2021Inventors: Igor Bitny, SERGEY KONDRATOV
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Patent number: 10949990Abstract: Using various embodiments, systems, methods and techniques to determine a geometrical area of projection of a multidimensional object are described. This includes determining, by a computer system, a set of visible faces projected by a camera on a viewport space displayed on a graphical user interface, where the multidimensional object is presented in an electronically generated multidimensional environment, projecting vertices of each face in the set of visible faces that are visible on the viewport space, determining a set of polygons of each face based on the projected vertices of each respective face, and calculating an area of each polygon in the set of polygons. Thereafter, a summation of the area of each polygon in the set of polygons is performed to determine the geometrical area of projection of the multidimensional object.Type: GrantFiled: January 30, 2019Date of Patent: March 16, 2021Assignee: Trivver, Inc.Inventors: Igor Bitny, Sergey Kondratov
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Publication number: 20210049788Abstract: Methods, systems, and techniques are disclosed to determine a pixel count of an object of interest in a multidimensional digital environment, based on the texture of the multidimensional object considered as an object of interest. In one embodiment, a technique to determine a percentage of an object of interest displayed in a viewport is disclosed. The technique includes rendering using a shader function the object of interest with a first color, rendering, using the shader function, the remainder of a scene displayed on the viewport with a second color, and determining a pixel count of pixels rendered with the first color to determine the percentage of an object of interest displayed on the viewport.Type: ApplicationFiled: November 1, 2020Publication date: February 18, 2021Inventors: SERGEY KONDRATOV, Igor Bitny, ALEXANDER ARBUZNIKOV
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Patent number: 10825200Abstract: Methods, systems, and techniques are disclosed to determine a pixel count of an object of interest in a multidimensional digital environment, based on the texture of the multidimensional object considered as an object of interest. In one embodiment, a first pass in a rendering pipeline is performed to render the objects of interest. Depth information of each pixel of the objects of interest is determined. A second pass in the rendering pipeline is performed that renders the entire scene. Each object of interest is rendered in a first predetermined color and a second depth information of each pixel within the scene is determined. The first and second depth information for each pixel is compared. When the depth information is different, the pixel is rendered with a second predetermined color. A total number of pixels having the first predetermined color is determined as a pixel count of the object of interest.Type: GrantFiled: January 30, 2019Date of Patent: November 3, 2020Assignee: Trivver, Inc.Inventors: Sergey Kondratov, Igor Bitny, Alexander Arbuznikov
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Publication number: 20200242794Abstract: Using various embodiments, systems, methods and techniques to determine a geometrical area of projection of a multidimensional object are described. This includes determining, by a computer system, a set of visible faces projected by a camera on a viewport space displayed on a graphical user interface, where the multidimensional object is presented in an electronically generated multidimensional environment, projecting vertices of each face in the set of visible faces that are visible on the viewport space, determining a set of polygons of each face based on the projected vertices of each respective face, and calculating an area of each polygon in the set of polygons. Thereafter, a summation of the area of each polygon in the set of polygons is performed to determine the geometrical area of projection of the multidimensional object.Type: ApplicationFiled: January 30, 2019Publication date: July 30, 2020Inventors: Igor Bitny, Sergey Kondratov
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Publication number: 20200242807Abstract: Methods, systems, and techniques are disclosed to determine a pixel count of an object of interest in a multidimensional digital environment, based on the texture of the multidimensional object considered as an object of interest. In one embodiment, a first pass in a rendering pipeline is performed to render the objects of interest. Depth information of each pixel of the objects of interest is determined. A second pass in the rendering pipeline is performed that renders the entire scene. Each object of interest is rendered in a first predetermined color and a second depth information of each pixel within the scene is determined. The first and second depth information for each pixel is compared. When the depth information is different, the pixel is rendered with a second predetermined color. A total number of pixels having the first predetermined color is determined as a pixel count of the object of interest.Type: ApplicationFiled: January 30, 2019Publication date: July 30, 2020Inventors: SERGEY KONDRATOV, Igor Bitny, ALEXANDER ARBUZNIKOV
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Publication number: 20200242831Abstract: Using various embodiments, methods and systems to determine viewability metrics of a multidimensional object in a multidimensional digital environment are described. In one embodiment, a system is configured to render a viewport of the multidimensional digital environment displayed on the graphical user interface. The viewport includes the object of interest. The object of interest includes a multidimensional digital object. The object of interest is rendered with a first set of colors. The system is further configured to determine a first number of pixels representing a total number of pixels in the first set of colors and to determine a second number of pixels in the viewport representing a total number of pixels of the viewport. Thereafter, a ratio is calculated by dividing the first number of pixels by the second number of pixels. The metric of viewability is then derived by the calculated ratio.Type: ApplicationFiled: January 30, 2019Publication date: July 30, 2020Inventors: Joel LaMontagne, Sergey Kondratov, Igor Bitny
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Publication number: 20150348063Abstract: A method and system for creating collateral items is provided where a series of publications bearing the branding of a third party are made. The series of publications bear the color schemes, patterns or other identifying characteristics of a third party brand. A series of electronic publications bearing the branding of a third party are also provided where the series of publications bear the color schemes, patterns or other identifying characteristics of a third party brand.Type: ApplicationFiled: January 7, 2014Publication date: December 3, 2015Inventor: Sergey KONDRATOV