An electronic device may include: a communication module comprising communication circuitry, a processor operatively coupled to the communication module, and a memory storing instructions operatively coupled to the processor. The instructions, when executed, may cause the processor to: obtain driving route traffic information of a first driving route of a vehicle connected to the electronic device, analyze the first driving route traffic information and determine a traffic event occurrence requiring a change in a driving route or a driving lane of the vehicle connected to the electronic device, based on the traffic event occurring, determine a severity level of the traffic event based on a driving time increase and an accident risk, and control a display device to display at least one of line change information, lane change information and a traffic sign corresponding to the severity level on a display device.

A vehicular vision system includes a camera disposed at a vehicle, an electronic control unit, and a video display disposed in the vehicle. The system, responsive to processing of captured image data, displays video images on the video display. The system retrieves graphic overlay data from memory. The graphic overlay data represents a plurality of graphic overlay portions, with each graphic overlay portion being associated with a respective display portion of a plurality of display portions of the video display. Responsive to occurrence of a driving condition, the system retrieves graphic overlay data, displays the graphic overlay portions, and adjusts a transparency of one or more of the displayed graphic overlay portions such that at least one displayed graphic overlay portion is viewable by the driver and at least one other displayed graphic overlay portion is not viewable by the driver.

A vehicle display control device includes: a map information acquisition unit that acquires map data around a vehicle; and an item display unit that overlaps a virtual item on a predetermined travel road on the map data and that displays the virtual item in a display area in a vehicle cabin. The item display unit overlaps and displays the virtual item on the map data, thereby guiding a driver of the vehicle toward the travel road on which the virtual item is displayed.

A vehicular vision system includes a camera disposed at a vehicle, at least one non-vision sensor disposed at the vehicle, and a display system of the vehicle that displays video images for viewing by the driver of the vehicle. Image data captured by the camera and sensor data sensed by the non-vision sensor are provided to a control of the vehicle. Responsive at least in part to processing at the control of image data captured by the camera, video images are displayed by a video display screen of the display system. The vehicular vision system determines an augmented reality overlay and the video display screen also displays the augmented reality overlay. The displayed augmented reality overlay pertains to at least one accessory of the equipped vehicle and/or is responsive at least in part to a driving condition of the equipped vehicle.

An electronic device attachable to a vehicle, according to various embodiments of the present invention, comprises: a communication interface; a memory for storing instructions; and at least one processor connected to the communication interface and the memory, wherein the at least one processor can be configured so as to execute the stored instructions in order to: acquire, from another device embedded in the vehicle, information on a plurality of objects located within a designated distance from the vehicle; identify, among the plurality of objects, a designated object located within a designated distance from the vehicle; generate configuration information of at least one piece of content to be displayed through a head-up display (HUD), on the basis of a state of the designated object; and display, through the HUD, content for guiding the operation of the vehicle, on the basis of the generated configuration information.

A vehicle traffic light information display apparatus includes a communication device that receives at least one of a vehicle surrounding image, vehicle location information, lane driving direction information, turn indicator status information, a navigation guidance route, or any combination thereof, a driving direction determiner that determines a driving direction of a vehicle based on at least one of the vehicle surrounding image, the vehicle location information, the lane driving direction information, the turn indicator status information, or any combination thereof, and a traffic light indication information generator that recognizes a traffic light around the vehicle based on the vehicle surrounding image and generates traffic light indication information based on at least one of the recognized traffic light, the driving direction, the navigation guidance route, or any combination thereof.

Based on information about a vehicle, the information can be projected and displayed onto a road surface or the like. An image projection apparatus, which projects an image, includes an acquisition unit that acquires the information about the vehicle, and an image projection unit that projects the image based on the information acquired by the acquisition unit.

A system is provided for hands-free handling of at least one asset by a user. The system includes a user device configured to be worn by a user and a control system remotely located relative to the user device and configured to exchange asset-related data with the user device, the asset-related data including at least one or more notifications related to the handling of the at least one asset by the user at the asset location. The user device contains a processor configured to determine location data associated with the at least one asset and including a location for the at least one asset, the determination being based, in part, upon the obtained asset identifier data; dynamically generate and display, at the user device, one or more navigational projections configured to guide the user to the asset location; and detect handling of the at least one asset by the user.

The present specification discloses a method for displaying an AR navigation screen, and an AR navigation system. The method for displaying an AR navigation screen according to the present specification may comprise the steps of: overlapping and displaying images of the surroundings of a vehicle and a plurality of AR images corresponding to the images of the surroundings; generating a window for separately displaying a first area including AR images overlapping at least one of the plurality of AR images; and overlapping and displaying the window and the images of the surroundings. The invention of the present specification has the effect of improving user convenience and promoting safe vehicle operation by using a window when AR images and the like are difficult to recognize due to being overlapped.

Provided is a superimposed-image display device configured such that when there is a guidance divergence point, which is a guidance target, ahead in a traveling direction of a vehicle, a plurality of guidance objects that provide guidance on an entry route that enters the guidance divergence point and an exit route are displayed. When a course including the entry route, the guidance divergence point, and the exit route is displayed using a plurality of guidance objects, the plurality of guidance objects are displayed so as to match the elevation of the line of sight of an occupant and displayed so as to be shifted to locations that are on the opposite side to an exit direction at the guidance divergence point relative to the front of the vehicle.