Abstract: A navigation interface display system generates a navigation element that organizes television programming data in an easy-to-use manner. The navigation element employs a hierarchical display protocol for a plurality of selection items that represent the various television programs, channels, and/or networks. The hierarchical display scheme displays a limited number of active selection items at a first magnification level and additional active selection items at a second magnification level. In addition, the selection items are displayed on distinctive areas or features of the navigation element, where such features represent different content genres or categories. Subcategories can also be displayed in a hierarchical manner, thus providing additional information related to the content as the magnification level of the navigation element changes.
Abstract: A navigation interface display system generates a navigation element that organizes television programming data in an easy-to-use manner. The navigation element employs a hierarchical display protocol for a plurality of selection items that represent the various television programs, channels, and/or networks. The hierarchical display scheme displays a limited number of active selection items at a first magnification level and additional active selection items at a second magnification level. In addition, the selection items are displayed on distinctive areas or features of the navigation element, where such features represent different content genres or categories. Subcategories can also be displayed in a hierarchical manner, thus providing additional information related to the content as the magnification level of the navigation element changes.
Abstract: A navigation interface display system generates a navigation element that organizes television programming data in an easy-to-use manner. The navigation element employs a hierarchical display protocol for a plurality of selection items that represent the various television programs, channels, and/or networks. The hierarchical display scheme displays a limited number of active selection items at a first magnification level and additional active selection items at a second magnification level. In addition, the selection items are displayed on distinctive areas or features of the navigation element, where such features represent different content genres or categories. Subcategories can also be displayed in a hierarchical manner, thus providing additional information related to the content as the magnification level of the navigation element changes.
Abstract: A navigation interface display system generates a navigation element that organizes television programming data in an easy-to-use manner. The navigation element employs a hierarchical display protocol for a plurality of selection items that represent the various television programs, channels, and/or networks. The hierarchical display scheme displays a limited number of active selection items at a first magnification level and additional active selection items at a second magnification level. In addition, the selection items are displayed on distinctive areas or features of the navigation element, where such features represent different content genres or categories. Subcategories can also be displayed in a hierarchical manner, thus providing additional information related to the content as the magnification level of the navigation element changes.
Abstract: Systems and methods according to the present invention describe 3D pointing devices which enhance usability by transforming sensed motion data from a first frame of reference (e.g., the body of the 3D pointing device) into a second frame of reference (e.g., a user's frame of reference). One exemplary embodiment of the present invention removes effects associated with a tilt orientation in which the 3D pointing device is held by a user.
Abstract: Systems and methods according to the present invention address these needs and others by providing a handheld device, e.g., a 3D pointing device, which uses at least one sensor to detect motion of the handheld device. The detected motion can then be mapped into a desired output, e.g., cursor movement.
Type:
Application
Filed:
June 20, 2007
Publication date:
November 1, 2007
Applicant:
Hillcrest Laboratories, Inc.
Inventors:
Matthew Liberty, Daniel Simpkins, Charles Gritton, Mark Turner, Frank Hunleth
Abstract: Systems and methods according to the present invention address these needs and others by providing a handheld device, e.g., a 3D pointing device, which uses hand tremor as an input. One or more sensors within the handheld device detect a user's hand tremor and identify the user based on the detected tremor.
Type:
Application
Filed:
June 20, 2007
Publication date:
October 25, 2007
Applicant:
Hillcrest Laboratories, Inc.
Inventors:
Matthew Liberty, Christopher Roller, Daniel Simpkins, Charles Gritton
Abstract: Systems and methods according to the present invention describe 3D pointing devices which enhance usability by transforming sensed motion data from a first frame of reference (e.g., the body of the 3D pointing device) into a second frame of reference (e.g., a user's frame of reference). One exemplary embodiment of the present invention removes effects associated with a tilt orientation in which the 3D pointing device is held by a user.
Abstract: Systems and methods according to exemplary embodiments of the present invention provide a user interface including an electronic program guide and scrollable visual directories.
Type:
Application
Filed:
December 4, 2006
Publication date:
August 23, 2007
Applicant:
Hillcrest Laboratories, Inc.
Inventors:
Negar Moshiri, Frank Wroblewski, Charles Gritton
Abstract: a method for navigating a pointer on a graphical user interface (GUI) includes the steps of: scrolling an input device to locate the pointer corresponding to the input device on a point of interest within the GUI, depressing an actuating button associated with the input device on the point of interest, obtaining a detailed view of the point of interest while centering the point of interest on the GUI and maintaining a position of the pointer on the point of interest.
Abstract: Systems and methods according to the present invention leverage programming language extensions, e.g., for SVG, to create zoomable user interfaces.
Type:
Application
Filed:
December 4, 2006
Publication date:
August 16, 2007
Applicant:
Hillcrest Laboratories, Inc.
Inventors:
Frank Hunleth, Stephen Scheirey, Charles Gritton
Abstract: A 3D pointing device includes a keyboard for character entry. In pointing mode, data from at least one motion sensor is provided, e.g., to be transmitted to a user interface for movement of a cursor. In text entry mode, data from at least one depressed key is provided, e.g., to be transmitted to a user interface for display thereon.
Type:
Application
Filed:
January 31, 2007
Publication date:
August 2, 2007
Applicant:
Hillcrest Laboratories, Inc.
Inventors:
Charles W.K. Gritton, Frank A. Hunleth, Kris Carter
Abstract: Systems and methods according to the present invention address these needs and others by providing a handheld device, e.g., a 3D pointing device, which uses at least one sensor to detect motion of the handheld device. The detected motion can then be mapped into a desired output, e.g., cursor movement.
Type:
Grant
Filed:
May 2, 2005
Date of Patent:
July 3, 2007
Assignee:
Hillcrest Laboratories, Inc.
Inventors:
Matthew G. Liberty, Daniel S. Simpkins, Charles W. K. Gritton, Mark Turner, Frank A. Hunleth