A vehicle including a plurality of displays disposed at different positions inside the vehicle, each display including a touch screen and a cover layer on a top surface of the touch screen, the cover layer of a corresponding display having a color characteristic based on an interior part of the vehicle having the display such that when the corresponding display is off, the corresponding display appears hidden; a sensor configured to detect a seat location of a person seated in the vehicle; and a controller configured to selectively control the plurality of the displays based on the detect seat location of the person seated in the vehicle.

A vehicle display device includes: a display; a vehicle information image generator; an external image obtaining device; a display controller that displays the vehicle information image and the external image on the display; and an external image display determination device that determines whether the display controller is going to display the not displayed external image. When the display controller is going to display the not displayed external image, the display controller displays the external image, which the display controller is going to display, on the display with gradually increasing brightness of the external image from the brightness that is lower by a predetermined amount than original brightness to predetermined brightness that is determined based on the original brightness.

Described herein is a rear view mirror system that is configured to adjust to a user's position without direct user interaction. In some embodiments, a camera may be included in the rear view mirror system so that its line of sight is perpendicular to a reflective surface. The camera may capture a digital image of the user. Eye patterns may be identified from the image information to determine an appropriate position for the mirror. In some embodiments, the mirror may be repositioned so that the camera's line of sight is directed halfway between the identified eye information and the center of a rear window. In some embodiments, the mirror may be re-adjusted periodically.

A computer-implemented method and system for in-vehicle dynamic virtual reality includes determining a spatial environment around a vehicle and one or more maneuver paths for the vehicle in the spatial environment. The method includes updating a virtual view based on the spatial environment and the maneuver paths. Updating the virtual view includes augmenting one or more components of a virtual world model to indicate the spatial environment and the maneuver paths. The virtual view is rendered to an output device. The method includes generating a vehicle maneuver request for the vehicle. The vehicle maneuver request includes at least a desired vehicle maneuver and the vehicle maneuver request is based at least in part on the spatial environment. The method includes controlling one or more vehicle systems of the vehicle based on the vehicle maneuver request.

A video display system performs a video conversion process on a video of a camera mounted on a vehicle and displays a resulting video, and includes a plurality of cameras, a detecting unit that detects an object of interest around the vehicle based on information or the like acquired through the plurality of cameras, other sensors, or a network, a transforming/synthesizing unit that transforms and synthesizes the videos photographed by the plurality of cameras using a shape of a virtual projection plane, a virtual viewpoint, and a synthesis method which are decided according to position information of the object of interest detected by the detecting unit, and a display unit that displays the video that is transformed and synthesized by the transforming/synthesizing unit.

A surroundings monitoring device of a crawler-type work machine includes: cameras configured to take images of surroundings of the crawler-type work machine; a display unit configured to display the images taken by the cameras; and a controller configured to superimpose an outer-edge guide image generated based on the farthest position of an undercarriage from a revolution center of the crawler-type work machine on the display unit.

A computer-implemented method comprises: extracting a setting from a description file of a virtual pan-tilt-zoom (PTZ) camera used to capture an original image through a wide-angle lens; determining a first set of coordinates of a pixel of the original image for each cell of a sparse conversion map represented as a first look-up table, wherein the sparse conversion map corresponds to a sparse grid of pixels of an output image; determining, via interpolating the first set of coordinates, a second set of coordinates of a pixel of the original image for each cell of a full conversion map, wherein the second set of coordinates is represented as a second look-up table, wherein the full conversion map corresponds to a full grid of pixels of the output image; instructing a display to present the output image, wherein the original image is less rectilinear than the output image.

A system and method for early detection of turning intent and automatic actuation of a turn signal in a vehicle is provided. The system has an image recognition system and turn determination unit for identifying turn predictors and processing them to determine if a turn is about to happen. In response, a corresponding turn signal is automatically initiated for a predetermined period of time, and further vehicle systems can be updated.

An electronic device and a method are described, The electronic device is adapted to be installed on a handlebar of a vehicle, the electronic device comprising: a processor; a communication module; a display comprising a halo-shaped display; a memory for storing therein executable instructions, the instructions upon being processed by the processor, causing the electronic device to: receive, via the communication module, navigational data from a mobile device, the navigational data being associated with a circular visual signal indication, the circular visual signal indication being indicative of at least one of (i) an upcoming directional instruction and (ii) a distance between a current location and an upcoming location associated with the upcoming directional instruction; and, cause the display, on the halo-shaped display, of the circular visual signal indication on a portion of the halo-shaped display.

A notification system for notification of a vehicle operator that an electronic device is in a bin when a triggering event occurs includes a bin, a charging device for charging the electronic device when the electronic device is in the bin, and a controller. The controller is in communication with the charging device and includes a processor and tangible, non-transitory memory on which is recorded instructions to provide a notification to the vehicle operator when the electronic device is in the bin and the triggering event occurs. The triggering event may be a transition of a vehicle electrical power system to an ignition off mode. The charging device may be an inductive charging device.