A vehicle control apparatus includes a second display device which is connected to a driving support ECU, and a meter ECU. The driving support ECU performs a plurality of diving support functions by executing a plurality of driving support controls. The meter ECU hides an integrated telltale image in a predetermined area of the second display device when all of a plurality of recommended driving support functions selected among the driving support functions have been set in the valid states. The meter ECU displays the integrated telltale image in the predetermined area of the second display device when at least one of the recommended driving support functions which has been set in the invalid state is present.

A vehicle control system includes an external environment recognition unit configured to recognize an external environment situation, an automated driving control unit configured to perform automated driving for automatically controlling at least one of acceleration/deceleration and steering of a subject vehicle, the automated driving control unit executing handover to switch a driving mode from an automated driving mode to a manual driving mode on the basis of the external environment situation recognized by the external environment recognition unit, a handover prediction unit configured to predict a possibility of occurrence of the handover on the basis of the recognized external environment situation, an output unit configured to output information, and an interface control unit configured to control the output unit so that information for prompting the vehicle occupant to prepare for the handover is output when the handover prediction unit predicts that the possibility of occurrence of the handover is high.

An electric vehicle management system which controls a charging amount for an electric vehicle by way of peak shift, and an on-board unit used for the electric vehicle management system are provided. Thereby, the on-board unit mounted on the electric vehicle detects a current location, and an electric vehicle management center provided on a network manages a charging schedule created in advance. Propriety of a charging operation at a current time is checked via communications between them. Charging of the electric vehicle is managed based on the charging schedule by notifying a driver of the check result through a display of the on-board unit.

The present invention relates to a night image output apparatus, comprising: a photographing unit comprising an optical pulse output unit for outputting optical pulses and an image sensor for forming a plurality of images using optical pulses reflected by an external object; a display unit for outputting a final image made by synthesizing the plurality of images; and a control unit for calculating object distance information displayed in each pixel of the final image, by using data of a light quantity ratio of the plurality of images to each pixel of the final image and a light quantity ratio related to distance.

The disclosure relates to a safety system for a battery electric vehicle (BEV) that comprises one or more electromotors powered by a battery system, wherein the safety system allows a limp home mode to be activated. The disclosure further relates to a battery electric vehicle provided with such a safety system. The battery system of the electric vehicle preferably is the sole power supply of the vehicle for powering the one or more electromotors for a prolonged period of time, e.g. a period of time greater than 10 minutes.

A working vehicle includes a steering handle, a vehicle body to travel by manual steering via the steering handle or automatic steering for the steering handle based on a scheduled traveling line, a setting switch to switch between valid and invalid, a setting mode to set at least the automatic steering before the automatic steering is started, and a display including a driving display portion to display driving information of the vehicle body during traveling. When the setting mode is switched to be valid, the display changes a displaying state of the driving display portion to another different displaying state different from the displaying state where the setting mode is invalid.

A three-dimensional augmented reality head-up display includes a display device functioning as a light source; and a freeform surface mirror for reflecting light from the light source onto a windshield of a vehicle. An image created by the light from the light source is focused on the ground in front of the vehicle as a virtual image of a three-dimensional perspective, through a reflection method in which the light from the light source is reflected onto the windshield by means of the freeform surface mirror.

During a journey using a motor vehicle, a virtual environment is displayed by use of a display device and additionally a virtual representation of a route layout located in front of the motor vehicle is also displayed by use of the display device within the virtual environment. The display device may be used in the motor vehicle.

The invention relates to a method for reducing the start-up time of a driver information system in a vehicle comprising providing a driver information system having an operating mode, a standby mode, and a hibernation mode. The driver information system is operated with operating power in the operating mode, is not supplied with operating power in the hibernation mode, and is operated with reduced operating power in the standby mode. A seat occupancy detection device is provided for detecting seat occupancy of at least one vehicle seat. An activation system is provided for activating and operating the driver information system in the operating mode at least when the activation system is active; and changing the driver information system from the operating mode to the standby mode when the activation system is switched off and when seat occupancy is detected at the same time.

In one example, a computing device includes one or more user input detection components, and one or more processors configured to receive an indication of a first user input detected by the one or more user input detection components, responsive to receiving the indication of the first user input, adjust a level of an attention buffer at a defined rate; responsive to determining that the level of the attention buffer satisfies a first threshold, prevent further interaction with a user interface of the computing device, responsive to determining that an indication of a second user input has not been received within a time period, adjust a level of the attention buffer, and responsive to determining that the level of the attention buffer satisfies a second threshold, allow further interaction with the user interface.