Methods and systems are described for determining an image resource allocation for displaying content within a display area. An image or data capture device associated with a display device may capture an image of a space associated with the user or capture data related to other objects in the space. The viewing distance between the user and the display area (e.g., the display device) may be monitored and processed to determine and/or adjust the image resource allocation for content displayed within the display area. User movement, including eye movement, may also be monitored and processed to determine and/or adjust the image resource allocation for content displayed within the display area.

The embodiments herein describe a mode of applications on the portable electronic device that improves single-handed operation of the devices. For example, the embodiments herein describe an ergonomic mode of an application that displays the graphical user interface (GUI) of the application in a bottom area of the display screen of the electronic device to allow the user to more easily interact with objects. The embodiments herein also describe an ergonomic mode of a keyboard displayed on the display screen of the portable electronic device. During the ergonomic mode of the keyboard, the keyboard is shifted towards a vertical edge of the display screen to allow a user to more easily reach keys of the keyboard that were previously unreachable without the user switching to two handed operation of the device or repositioning the electronic device in the user's hand.

An image display method includes: in a case that at least two thumbnails are displayed on a first screen of the terminal, receiving a first input performed by a user for a target area; selecting a target thumbnail from the at least two thumbnails in response to the first input; and displaying a magnified image corresponding to the target thumbnail. The target area is an area different from display areas of the at least two thumbnails.

In some embodiments, an electronic device facilitates controlling the display of an additional representation of content surrounding an insertion marker while maintaining the ability to control the insertion marker.

An information processing apparatus includes a processor configured to detect whether a first display component is superimposed on a second display component, and, if the first display component is superimposed on the second display component, change at least one of display of the first display component and display of the second display component to eliminate the superimposition.

A first position of a hybrid reality system (DHR) relative to a first real-world object is determined and data associated with an occluded object is received. A viewport is established anchored to a first location on the first real-world object and a first image showing a first virtual view of the hidden portion of the occluded object as it would be seen from the first position of the DHR through the viewport is presented on the DHR overlaid on a first view of the first real-world object. At a second time, a second position of the DHR is determined and a second image showing a second virtual view of the hidden portion of the occluded object as it would be seen from the second position of the DHR through the viewport is presenting on the DHR overlaid on a second view of the first real-world object.

A method for scrolling through a representation of data that is too large to be presented legibly in its entirety within confines of a display is disclosed. The method includes presenting a section of the representation on the display. A portion of the representation is selected, using the section presented on the display, for scrolling on. The presentation of the section presented on the display is modified to include additional representation based on the portion selected. The additional content is to be presented in a non-linear fashion. Input from a user interface associated with movement through the additional content is received. The movement is to provide non-linear scrolling through the additional content. Apparatus for performing the method is also disclosed.

An image display device including a display configured to display a first image is provided. The image display device includes a controller configured to generate a second image by enlarging a part of the first image displayed in a first region of the display and to control the display to display a part of the second image in the first region, and a sensor configured to sense a user input for moving the second image. In response to the user input, the controller is configured to control the display to move and display the second image, within the first region.

A system and methods for the enhancement of a user's vision using a head-mounted and user-controllable device including a magnification bubble having variable attributes wherein a portion of the scene is magnified within the complete scene, wherein the user is able to modify, in real-time, how the images are processed including the attributes of the magnification bubble.

An electronic apparatus includes a display panel comprising a plurality of image display pixels and a plurality of image sensing elements, each image sensing element being disposed between the plurality of image display pixels, an optical element disposed on an upper portion of the display panel, the plurality of image sensing elements being configured to sense an incident light through the optical element, and a processor configured to control the panel device to display an image generated based on the sensed incident light, receive a user input corresponding to a partial area of the displayed image, control the optical element to magnify the partial area of the displayed image, and control the panel device to display a magnified image of the partial area.