A head up display arrangement for a motor vehicle includes a global positioning system module emitting geographic location coordinates associated with the motor vehicle. A database includes lane marking location data stored in association with corresponding geographic location coordinates. An electronic processing device is communicatively coupled to the global positioning system module and to the database. The electronic processing device receives the geographic location coordinates and retrieves from the database lane marking location data stored in association with the received geographic location coordinates. The electronic processing device transmits the retrieved lane marking location data. A head up display is communicatively coupled to the electronic processing device and receives the transmitted lane marking location data. The head up display displays virtual lane markings dependent upon the received lane marking location data.

A method and a device for adjusting a display brightness value are provided. The method includes: acquiring a brightness value of a virtual image at an imaging position of an HUD and a brightness value of an environment where the virtual image is located; and adjusting the display brightness value of the HUD in accordance with the brightness value of the environment and the brightness value of the virtual image.

Provided are a head-up display device and an onboard display system capable of improving the visual appeal of a virtual image, from among multiple virtual images, that is associated with an actual scene. A HUD device displays a first virtual image, which is associated with an actual scene, and a second virtual image, which is not associated with the actual scene. The HUD device is equipped with a HUD control unit that sets the luminance of the first virtual image to be higher than the luminance of the second virtual image by a luminance difference, and sets the luminance difference to be larger as a light control value increases, such value being determined on the basis of the intensity of external light.

A vehicle control device includes a display control unit configured to display a preceding vehicle image corresponding to a preceding vehicle and an overtaking proposal activation image based on a relative situation of the preceding vehicle with respect to the host vehicle and a surrounding environment of the host vehicle and configured to control display such that the overtaking proposal activation image and the preceding vehicle image approach each other in response to approaching of the host vehicle and the preceding vehicle, an automatic overtaking proposal unit configured to propose the automatic overtaking to a driver when the overtaking proposal activation image reaches the preceding vehicle image on the display screen, and a vehicle control unit configured to execute the automatic overtaking of the preceding vehicle by the host vehicle when the approval determination unit determines that the driver has approved the automatic overtaking.

A head mounted display (HMD) device worn by a user in a vehicular computing environment (VCE) can be augmented with video by measuring, within the VCE, a sight angle between a user's directional focus and a vehicle's directional orientation and augmenting, in response to a determination that the measured sight angle exceeds a threshold limit, an interface of the HMD device with a video feed of continuous live content captured within a central viewing area.

Systems and methods are provided for entertaining a passenger of a vehicle by providing an immersive experience. In one embodiment, a method includes: receiving image data from a plurality of camera devices coupled to the vehicle, wherein the image data depicts an environment surrounding the vehicle; receiving point of interest data associated with the environment of the vehicle; fusing, by a processor, the image data and the point of interest data using a localization method; orienting, by a processor, the fused image data based on a position of a user device; and rendering, by a processor, the oriented, fused data on a virtual reality display of the user device.

A display of roadside objects on a vehicle windshield within a primary field of view of a driver, with an indication of a level of importance of the object is provided. A method includes: detecting, by a computer device, a roadside object in a vehicle driver's peripheral view; analyzing, by the computer device, the detected roadside object to assign a level of importance to the object based on predefined levels of importance; and displaying, by the computer device, the roadside object as a semi-transparent object in a display area of a windshield of the vehicle with an indication of the level of importance of the object.

A HUD device that allows an occupant of a moving body to view a virtual image by projecting an image on a display medium includes a display item information acquisition unit that acquires display item information showing position and display content of display item, a travel information acquisition unit that acquires travel information indicating position of the moving body at predetermined time intervals, and a state information acquisition unit that acquires state information indicating state of the moving body, and specifies at display timings display position on the basis of position indicated by display item information and position indicated by travel information acquired last. The HUD device includes a display controller that specifies display position on the basis of position indicated by display item information and correction position obtained by correcting position indicated by travel information acquired last in accordance with state indicated by state information and displays an image showing display content indicated by display item information at the specified display position on the display medium when a predetermined condition is satisfied.

Disclosed is a driving guide method for a vehicle. The driving guide method includes: acquiring predicted driving information of a vehicle that is driving manually; acquiring gaze information of a user of the vehicle; identifying at least one recognition pattern information that is acquired based on history information corresponding to the predicted driving information; identifying recognition pattern information corresponding to the gaze information from among the at least one recognition pattern information; and displaying information on a region of interest that is determined based on the recognition pattern information. One or more of an autonomous vehicle a crime predicting apparatus of the present disclosure may be linked to an Artificial Intelligence (AI) module, an Unmanned Aerial Vehicle (UAV), a robot, an Augmented Reality (AR) device, a Virtual Reality (VR) device, a 5G service-related device, etc.

A system and method of enabling an augmented reality/virtual reality (AR/VR) device to augment image or video data using a virtual vehicle skin, wherein the method is carried out by vehicle electronics included within a vehicle, the method including: establishing a connection to the AR/VR device using a wireless communications device included in the vehicle electronics of the vehicle; and sending a virtual vehicle skin response to the AR/VR device via the established connection, wherein the AR/VR device is configured to obtain background video and to display the virtual vehicle skin over the obtained background video so that the virtual vehicle skin overlays a portion of the vehicle, and wherein the virtual vehicle skin response includes the virtual vehicle skin or virtual vehicle skin access information that can be used by the AR/VR device to derive or obtain the virtual vehicle skin.