To provide a display control device and the like that enable a passenger to perform, free from a feeling of strangeness, an operation of displaying an image shot before or after an image being displayed by an operator when an image in which an outside of a moving body is shot is displayed in the moving body.

The display control device displays images obtained by shooting the outside of a moving body in the moving body, detects the direction of movement of the moving body, switches, in accordance with the movement direction, the first operation between to be a forward operation of displaying an image shot after an image being displayed and to be a rewind operation of displaying an image shot before an image being displayed, displays an image in accordance with the forward operation or the rewind operation.

An image adjustment system and an image adjustment method include a camera, an image adjustment device, an image display device, and a controller. The image adjustment device includes an image generator and an image processor. The image generator generates a spherical image. The image processor acquires the spherical image from the image generator based on instruction information output from the controller and displays the spherical image on the image display device. The image processor rotates the spherical image based on the instruction information, and adjusts a captured image displayed on the image display device in accordance with the rotation of the spherical image.

Some embodiments of the invention provide a map application with novel map exploration tools. In some embodiments, the map application executes on a mobile device (e.g., a handheld smartphone, a tablet, etc.) with a touch sensitive screen. The map application of some embodiments has a first display area to display a map of a region, and second and third display areas to display information about items displayed on the map in the first display area. In some embodiments, the second display area slides over the first display area to overlap at least a portion of the first display area. After the second display area slides over the first display area, the third display area in some embodiments slides over the first display area to overlap at least a portion of the first display area. In some embodiments, the second and third display areas slide over the first display area from one side of the first display area. This side is the bottom of the first display area in some embodiments. In some embodiments, the bottom side is expected to be closer to a position for resting the mobile device in a hand of a user than a top side of the first display area. Accordingly, in some embodiments, the second and third display areas slide up from the bottom side of the first display area so that information and/or controls that are provided in these display areas are more accessible for one handed operations (e.g., thumb-based touch operations) of the user as the user hold and interacts with the device with one hand.

Methods and apparatus relating to an adaptive multibit bus for energy optimization are described. In an embodiment, a 1-bit interconnect of a processor is caused to select between a plurality of operational modes. The plurality of operational modes comprises a first mode and a second mode. The first mode causes transmission of a single bit over the 1-bit interconnect at a first frequency and the second mode causes transmission of a plurality of bits over the 1-bit interconnect at a second frequency based at least in part on a determination that an operating voltage of the 1-bit interconnect is at a high voltage level and that the second frequency is lower than the first frequency. Other embodiments are also disclosed and claimed.

An electronic device includes a main body; a flexible display to be rolled up and placed in the main body; a sensor configured to detect unrolling of the flexible display; and a controller configured. The controller is configured to control the flexible display to present information while the flexible display is exposed from the main body, and, based on detecting the flexible display being rolled into the main body while the information is presented, control to change a presentation position of the information on the flexible display according to the rolling of the flexible display.

An electronic device including a main body; a flexible display to be rolled up, wherein the rolled-up flexible display is placed in the main body; a sensor configured to detect unrolling of the flexible display; and a controller configured to control the flexible display to present information, and control to change a presentation position of the information on the flexible display in a direction opposite to a unrolling direction of the flexible display.

A method of visually organizing multiple parallel chat topics on the display screens of mobile devices used in messaging conversations is provided. Visual media and external apps are integrated into such displays, by forming parallel orthogonally spaced chat threads, where preferably each chat thread has a visual element associated with it displayed in a visual display area. The different chat participants can each manipulate or interact with the visual element of any selected chat thread.

The present disclosure relates to an image display device, method based on a mobile terminal, medium, and electronic device. The device includes: a rotation angle acquisition processor configured to acquire a rotation angle value of the mobile terminal rotated around an axis in a second direction; a movement speed processor configured to determine a movement speed of an image displayed on a display screen of the mobile terminal in a display interface of the display screen according to the rotation angle value, and/or determine the movement speed of the image in the display interface of the display screen according to a relationship between a size of the image displayed on the display screen in a first direction and a size of the display interface of the display screen in the first direction; and an image movement controller configured to control the image to move in the first direction in the display interface of the display screen according to the movement speed.

An embodiment provides a portable computing device including: a first chassis provided with a first touch display unit; a second chassis provided with a second touch display unit; a coupling part which rotatably couples the first chassis and the second chassis to each other; and control unit which displays screen state information indicating a display state of one or more of the first touch display unit and the second touch display unit on one or more of the first touch display unit and the second touch display unit. Other aspects are described and claimed.

An exemplary linking apparatus includes a first data transfer connector plug configured to mate with a first data transfer connector receptacle of a first mobile computing device. The apparatus also includes a second data transfer connector plug configured to mate with a second data transfer connector receptacle of a second mobile computing device. To house the first and second data transfer connector plugs, the apparatus includes a housing that is configured to facilitate a positioning of the first and second mobile computing devices in a dual-screen extended configuration in front of respective eyes of a user. The apparatus further includes a plurality of conductors electrically coupling the first and second data transfer connector plugs to provide a data transfer link between the first and second mobile computing devices when the first and second data transfer connector plugs are mated with the first and second data transfer connector receptacles, respectively.