Provided are an electronic apparatus and a method for recognizing, based on ambient road information of a vehicle and field of view information of the vehicle, a hidden region that is a region where another vehicle is possibly present in an area hidden from a field of view of the vehicle by an external object In the present disclosure, one or more of an electronic apparatus, a vehicle, a vehicular terminal, and the autonomous driving vehicle may be associated with an artificial intelligence module, an unmanned aerial vehicle (UAV), a robot, an augmented reality (AR) device, a virtual reality (VR) device, a 5G service-related device, and the like.

Methods and apparatus are disclosed to facilitate navigation using a windshield display. An example vehicle comprises a global positioning system (GPS) receiver, a transceiver, and a processor and memory. The GPS receiver receives location data. The transceiver receives second party information. The processor and memory are in communication with the GPS receiver and the transceiver and are configured to determine a navigation option using the location data and the second party information and to dynamically display an image of the navigation option via a display.

The present systems, devices, and methods generally relate to controlling wearable displays during vehicle operation, and particularly to detecting when a user is operating a vehicle and restricting operation of a wearable display to prevent the user from being distracted. At least one processor of a wearable display system receives user context data from at least one user context sensor, and determines whether the user is operating a vehicle based on the user context data. If the user is operating a vehicle, presentation of at least one user interface is restricted. Unrestricted access can be restored by inputting an unlock input to override the restriction, or by analysis of additional user context data at a later time.

A system and method are provided for aiding an operator in operating a vehicle. In one embodiment, a system includes a sensor system configured to generate sensor data sensed from an environment of the vehicle. The system further includes a control module configured to, by a processor, to determine a scene of the environment based on the sensor data, determine a terrain feature in the environment based on the sensor data, alter a graphic of a vehicle component based on the terrain feature, and generate display data to display the altered graphic and the terrain feature in the scene for viewing by the operator of the vehicle.

A method and device are disclosed. Vehicle sensor data may be compared with a threshold value. When the vehicle sensor data exceeds the threshold value, selecting an appearance mode of a plurality of appearance modes, and applying the first appearance mode to virtual lane marker data to produce enhanced virtual marker data. The enhanced virtual marker data may be transmitted for display by a vehicle graphical user interface.

A method for providing safe-driving information via eyeglasses of a driver of a vehicle is provided. The method includes steps of: a safe-driving information analyzing device, (a) if a visual-dependent driving image, corresponding to a perspective of the driver, from a camera on the eyeglasses, acceleration information and gyroscope information from sensors are acquired, inputting the visual-dependent driving image into a convolution network to generate a feature map, and inputting the feature map into a detection network, a segmentation network, and a recognition network, to allow the detection network to detect an object, the segmentation network to detect lanes, and the recognition network to detect driving environment, inputting the acceleration information and the gyroscope information into a recurrent network to generate status information on the driver and (b) notifying the driver of information on a probability of a collision, lane departure information, and the driving environment, and giving a warning.

An apparatus and a method for controlling a display of a vehicle is provided. The apparatus includes: a detector to detect at least one background element on a head-up display and detect additional information and color information of the at least one detected background element, and a determination device. When the additional information of the detected background element is matched with the head-up display, the determination device compares color information of the a graphic user interface (GUI) corresponding to the additional information with the color information of the detected background element. And an image correcting device of the apparatus corrects a color of an element of the GUI based on a comparison result, and an output controller outputs a corrected GUI corresponding to the additional information and displays the corrected GUI on the head-up display.

An HUD system, includes at least one first HUD device, namely an AR-HUD device, with at least one first image source for displaying a first image produced by at least one hologram in a first display section of a display region and at least one second HUD device with at least one second image source for displaying a second image produced using geometric projection optics in a second display section of the display region.

A system and method may track data from one or more sensors during vehicle driving. Based on the sensors data, one or more alerts or potential hazards may be identified. The system and method may generate a drive summary including information and optional statistics about the alerts or potential hazards.

A method, apparatus, system, and computer program product for providing an in-vehicle display of information for an object of interest. Sound data is received from a sound sensor system connected to the vehicle. The sound data is for sounds detected in an exterior environment around the vehicle. The sound data is analyzed for a presence of an object of interest. The location of the object of interest is determined using the sound data in response to detecting the presence of the object of interest. A visual indicator for the object of interest is displayed using an electronic display system in the vehicle to augment a live view of the exterior environment seen through a window of the vehicle for the in-vehicle display of the information for the object of interest to draw attention to the object of interest in the live view.