Abstract:
Methods, apparatuses, computer program products, devices and systems are described that carry out accepting from a user identifier encryption entity at least one encrypted identifier corresponding to a user having at least one instance of data for encryption; encrypting the at least one instance of data to produce level-one-encrypted data; associating the at least one encrypted identifier with the level-one-encrypted data, wherein a level-one decryption key for the level-one-encrypted data is inaccessible to the user identifier encryption entity; and transmitting the level-one-encrypted data and associated encrypted identifier.
Abstract:
An electronic device may include a touch screen electronic display configured to offset and/or shift the contact locations of touch implements and/or displayed content based on one or more calculated parallax values. The parallax values may be associated with the viewing angle of an operator relative to the display of the electronic device. In various embodiments, the parallax value(s) may be calculated using three-dimensional location sensors, an angle of inclination of a touch implement, and/or one or more displayed calibration objects. Parallax values may be utilized to remap contact locations by a touch implement, shift and/or offset displayed content, and/or perform other transformations as described herein. A stereoscopically displayed content may be offset such that a default display plane is coplanar with a touch surface rather than a display surface. Contacts by a finger may be remapped using portions of the contact region and/or a centroid of the contact region.
Abstract:
Methods, apparatuses, computer program products, devices and systems are described that carry out receiving level-two encrypted data and at least one associated hash; storing the level-two encrypted data and at least one associated hash; and transmitting the level-two encrypted data and at least one associated hash in response to a request for at least one of the level-two encrypted data or the at least one associated hash.
Abstract:
A display system includes a display, a focus region component, a content update component, and a content component. The focus region component is configured to determine a focus region of a user in relation to a display screen of the display. The focus region includes a region of the display screen at which a user is likely looking. The content update component is configured to select content update rates for a plurality of display regions of the display screen, including the focus region. The content update rate in the focus region is different than a content update rate in one or more other display regions of the plurality of display regions. The content component is configured to receive content and updated content for display on the display screen and to provide the content to the display based on the content update rates.
Abstract:
An electronic device may include a touch screen electronic display configured to offset and/or shift the contact locations of touch implements and/or displayed content based on one or more calculated parallax values. The parallax values may be associated with the viewing angle of an operator relative to the display of the electronic device. In various embodiments, the parallax value(s) may be calculated using three-dimensional location sensors, an angle of inclination of a touch implement, and/or one or more displayed calibration objects. Parallax values may be utilized to remap contact locations by a touch implement, shift and/or offset displayed content, and/or perform other transformations as described herein. A stereoscopically displayed content may be offset such that a default display plane is coplanar with a touch surface rather than a display surface. Contacts by a finger may be remapped using portions of the contact region and/or a centroid of the contact region.
Abstract:
An electronic device may include a touch screen electronic display configured to offset and/or shift the contact locations of touch implements and/or displayed content based on one or more calculated parallax values. The parallax values may be associated with the viewing angle of an operator relative to the display of the electronic device. In various embodiments, the parallax value(s) may be calculated using three-dimensional location sensors, an angle of inclination of a touch implement, and/or one or more displayed calibration objects. Parallax values may be utilized to remap contact locations by a touch implement, shift and/or offset displayed content, and/or perform other transformations as described herein. A stereoscopically displayed content may be offset such that a default display plane is coplanar with a touch surface rather than a display surface. Contacts by a finger may be remapped using portions of the contact region and/or a centroid of the contact region.
Abstract:
A display system includes a display, a content component, a focus region component, and a refresh rate component. The display is configured to selectively display information with refresh rates that vary across a plurality of display regions of the display screen. The content component is configured to receive content for display on the display screen and to provide the content to the display. The focus region component is configured to determine a focus region of a user in relation to the display screen. The focus region includes one of the plurality of display regions at which a user is likely looking. The refresh rate component is configured to select the refresh rates of the display elements in the plurality of display regions. A refresh rate in the focus region may be different than a refresh rate in one or more other display regions of the plurality of display regions.
Abstract:
A display system includes a display, a content component, a focus region component, and a refresh rate component. The display is configured to selectively display information with refresh rates that vary across a plurality of display regions of the display screen. The content component is configured to receive content for display on the display screen and to provide the content to the display. The focus region component is configured to determine a focus region of a user in relation to the display screen. The focus region includes one of the plurality of display regions at which a user is likely looking. The refresh rate component is configured to select the refresh rates of the display elements in the plurality of display regions. A refresh rate in the focus region may be different than a refresh rate in one or more other display regions of the plurality of display regions.
Abstract:
An electronic device may include a touch screen electronic display configured to offset and/or shift the contact locations of touch implements and/or displayed content based on one or more calculated parallax values. The parallax values may be associated with the viewing angle of an operator relative to the display of the electronic device. In various embodiments, the parallax value(s) may be calculated using three-dimensional location sensors, an angle of inclination of a touch implement, and/or one or more displayed calibration objects. Parallax values may be utilized to remap contact locations by a touch implement, shift and/or offset displayed content, and/or perform other transformations as described herein. A stereoscopically displayed content may be offset such that a default display plane is coplanar with a touch surface rather than a display surface. Contacts by a finger may be remapped using portions of the contact region and/or a centroid of the contact region.
Abstract:
An electronic device may include a touch screen electronic display configured to offset and/or shift the contact locations of touch implements and/or displayed content based on one or more calculated parallax values. The parallax values may be associated with the viewing angle of an operator relative to the display of the electronic device. In various embodiments, the parallax value(s) may be calculated using three-dimensional location sensors, an angle of inclination of a touch implement, and/or one or more displayed calibration objects. Parallax values may be utilized to remap contact locations by a touch implement, shift and/or offset displayed content, and/or perform other transformations as described herein. A stereoscopically displayed content may be offset such that a default display plane is coplanar with a touch surface rather than a display surface. Contacts by a finger may be remapped using portions of the contact region and/or a centroid of the contact region.