Provided is a vehicle lamp unit that enables a user to perceive a detection range of a sensor. A vehicle lamp unit 1 includes: a sensor 4 mounted at a lower part of a vehicle 90; and an irradiation device 30 configured to irradiate a vehicle outer plate 95 present at a position corresponding to a detection range of the sensor 4.

The invention relates to a method, performed by a control device (10), for controlling a vehicle lighting device (100), the vehicle lighting device (100) includes the control device (10); and at least one electronic display unit (20) arranged at one end (12, 14) of a vehicle (1), wherein the control device (10) is arranged to control the at least one display unit (20) to show various types of vehicle lights (22). The method includes: collecting (s101) data relating to the vehicle surroundings; and controlling (s102) the at least one display unit (20) to adapt at least one vehicle light (22) based on the collected data.

A lighting apparatus for a vehicle may include a light output unit; an interface unit; and at least one processor. The at least one processor may be configured to control the light output unit to generate light that illuminates an exterior of the vehicle. The at least one processor may also be configured to receive first information via the interface unit; and control the light output unit to display, via the light that illuminates the exterior of the vehicle, a visual image corresponding to the received first information. The at least one processor may further be configured to receive second information via the interface unit; and control the light output unit based on the received second information to change the visual image displayed by the light that illuminates the exterior of the vehicle.

One embodiment includes a display system for use on the exterior of a vehicle having a display, a vehicle speed sensor, and a processor coupled to the vehicle speed sensor. The processor is configured to implement one of three operational modes of the display system based on the speed and state of the vehicle: a first operational mode, wherein a first content, including identification and/or registration information of the vehicle is rendered on the display at a first power consumption level; a second operational mode, wherein a second content, including a message, identification and/or registration information of the vehicle, is rendered on the display; and a third operational mode, wherein content is rendered on the display at a second power consumption level less than the first power consumption level.

The present disclosure relates to a driving assistance system, includes: a light detection and ranging module configured to detect position parameters of objects around the light detection and ranging module; a LiFi driving module connected to the light detection and ranging module and being capable of receiving the position parameters and modulating the position parameters to generate a LiFi signal; and a lighting module connected to the LiFi driving module, and configured to provide lighting and transmit the LiFi signal.

An apparatus for communicating a driving status of a vehicle may include: a surrounding environment detection unit configured to detect surrounding environment data of a vehicle; a driving status detection unit configured to detect the driving status of the vehicle; a communication lighting unit installed on the body of the vehicle; and a control unit configured to determine whether there is an object located within a designated distance around the vehicle and approaching the vehicle within a designated distance, on the basis of the surrounding environment data of the vehicle, and output information indicating the driving status of the vehicle through the communication lighting unit, when the determination result indicates that there is the corresponding object.

A display apparatus configured to receive a command, and convert the command to displayable information to an outside pedestrian or drivers in other vehicles may include a main body that includes a securing portion to secure the display apparatus to a vehicle; a communication unit to receive the command; a processor to convert the command to displayable information; a display portion having a displaying layer to display information; and a power managing unit to store and provide electrical energy for the display apparatus. In one embodiment, the power managing unit may include a power generating unit to be positioned to overlap with the displaying layer.

A road surface drawing system includes a road surface drawing lamp that is provided in a vehicle and illuminates a road surface with a beam, and a controller that controls the road surface drawing lamp and draws, with a beam BM, a pattern PTN on the road surface ahead of the vehicle. The controller draws a pattern PTN instructing the vehicle to stop if a signal state of an upcoming traffic signal is a red light.

A system, a method, and a computer program product may be provided for user guidance. In an example, the system includes an image projection device configured to project traffic patterns on a surface, at least one non-transitory memory configured to store computer program code, and a processor configured to execute the computer program code to control operation of the image projection device. For example, sensor data from one or more sensors onboard a vehicle is obtained. The sensor data is associated with a state of operation of the vehicle, and proximate movement associated with the vehicle. Based on the sensor data, one or more traffic patterns for projection is determined. Further, an image projection device is controlled to project the one or more traffic patterns in one or more direction of the vehicle.

Aspects of the disclosure provide for displaying notifications on a display of an autonomous vehicle 100. In one instance, a distance from the vehicle to a destination of the vehicle or a passenger may be determined. When the distance is between a first distance and a second distance, a first notification 650 may be displayed on the display. The second distance may be less than the first distance. When the distance is less than the second distance, a second notification 660 may be displayed on the display. The second notification provides additional information not provided by the first notification.