A school-travel assistance system includes automobiles. The automobiles include communication modules configured to communicate with each other, and are configured to perform auto-driving. At least one of the automobiles includes a camera configured to detect the group of children. The automobiles perform assistance control (first and second assistance controls) in which they cooperatively assist movement of the group of children, while communicating with each other through the communication modules. The assistance control is control of assisting the movement of the group of children by the automobile traveling in front of the group of children and the automobile traveling behind the group of children.

Aspects of the present disclosure relate to generating notifications of acceleration events for a vehicle operating in an autonomous driving mode. As an example, instructions generated by a planning system of the vehicle are monitored. Determining whether the instructions identify changes in lateral and longitudinal acceleration for the autonomous driving mode. That an acceleration threshold will be met when the vehicle proceeds according to the changes is determined. A notification is generated based on the determination that an acceleration threshold will be met, the notification identifying that an acceleration event has occurred. The notification is displayed to a passenger of the vehicle on a display of the vehicle.

Aspects of the present disclosure relate to generating notifications of acceleration events for a vehicle operating in an autonomous driving mode. As an example, instructions generated by a planning system of the vehicle are monitored. Determining whether the instructions identify changes in lateral and longitudinal acceleration for the autonomous driving mode. That an acceleration threshold will be met when the vehicle proceeds according to the changes is determined. A notification is generated based on the determination that an acceleration threshold will be met, the notification identifying that an acceleration event has occurred. The notification is displayed to a passenger of the vehicle on a display of the vehicle.

A steering wheel includes an indicator. The indicator includes a light source that emits light and a light guide. The light guide includes an outer surface and an end opposing the light source. The light emitted from the light source enters the end of the light guide, and some of the light is emitted from the outer surface.

An optoelectronic device comprises a plurality of optoelectronic light sources being arranged on a first layer, in particular an intermediate layer being arranged between a cover layer and a carrier layer. The first layer comprises or consists of an at least partially transparent material and each optoelectronic light source of the plurality of optoelectronic light sources comprises an individual light converter for converting light emitted by the associated light source into converted light. The light converter of each optoelectronic light source is arranged on the first layer and/or the associated optoelectronic light source.

A vehicle state determining unit (1) for determining a state of a vehicle, a display data output unit (7) for outputting display data for displaying information indicating the state of the vehicle determined by the vehicle state determining unit (1), and an information displaying unit (10) for determining display time of the information from the state of the vehicle determined by the vehicle state determining unit (1) and displaying the information to the outside of the vehicle in accordance with the display data output from the display data output unit (7) during the display time, in which the information displaying unit (10) is configured to switch a display method of the information in accordance with the display time. Thus, a degree of information transmission may be increased.

A vehicular vision system includes a driver-side exterior mirror assembly, a passenger-side mirror assembly and an interior mirror assembly. The fields of view of the mirror reflective elements of the exterior mirror assemblies are adjustable by the driver via a respective actuator. The exterior mirror assemblies include respective cameras that each have a respective rearward field of view that supplements the field of view of the mirror reflective element when viewed by the driver of the vehicle. A video display is disposed behind the mirror reflector of an interior mirror reflective element such that displayed video images are viewable through the mirror reflector of the interior mirror reflective element. The video display includes a driver-side display portion and a passenger-side display portion that each display images derived from image data captured by the respective camera while not displaying images derived from image data captured by the other camera.

Provided are an apparatus and method for selectively selecting and controlling interior and exterior displays of a vehicle. The apparatus includes an input unit configured to receive driving environment information, a memory configured to store a program for controlling interior and exterior displays of a vehicle according to a driving environment, and a processor configured to execute the program. The processor controls at least one of the interior and exterior displays to selectively project display information in consideration of the driving environment information by transmitting a control command signal for the at least one of the interior and exterior displays.

Provided are an apparatus and method for selectively selecting and controlling interior and exterior displays of a vehicle. The apparatus includes an input unit configured to receive driving environment information, a memory configured to store a program for controlling interior and exterior displays of a vehicle according to a driving environment, and a processor configured to execute the program. The processor controls at least one of the interior and exterior displays to selectively project display information in consideration of the driving environment information by transmitting a control command signal for the at least one of the interior and exterior displays.

A lighting system enables a lighting pattern to be displayed on a vehicle when the vehicle is in motion. A lighting pattern may include lights that fluctuate (with respect to luminosity) or lights that stay, that is, are solid, at the same luminosity. The length of time that a light, such as an LED lamp, is powered on may vary. Similarly, the amount of time between two adjacent lights are powered off and powered on may also vary. As such, the lighting sequence is flexible and can be customized so that all lights are not on for the same length of time and the time between two lights being powered may vary. A vehicle front alert system allows for improved perception of speed of an approaching vehicle, human, or object.