Information related to a vehicle can be displayed by projecting an image based on the information on a road surface or the like. An image projection apparatus that projects an image includes: an acquisition unit that acquires information to be displayed; and an image projection unit that projects the image based on the information to be displayed acquired by the acquisition unit.

Information related to a vehicle can be displayed by projecting an image based on the information on a road surface or the like. An image projection apparatus that projects an image includes: an acquisition unit that acquires information to be displayed; and an image projection unit that projects the image based on the information to be displayed acquired by the acquisition unit.

Information related to a vehicle can be displayed by projecting an image based on the information on a road surface or the like. An image projection apparatus that projects an image includes: an acquisition unit that acquires information to be displayed; and an image projection unit that projects the image based on the information to be displayed acquired by the acquisition unit.

A notifying method includes detecting an object existing in a periphery of a vehicle and determining a type of the object existing in the periphery of the vehicle. The notifying method further includes emitting a visible light to irradiate at least a part of the periphery of the vehicle with an irradiation pattern. The irradiation pattern includes an icon pattern indicating the type of the object.

A lamp system is mounted on a vehicle provided with a HUD system. A variable light distribution lamp irradiates a beam to a road surface with a variable light intensity distribution so as to draw a pattern. A controller controls the variable light distribution lamp in cooperation with a HUD system.

A lamp system is mounted on a vehicle provided with a HUD system. A variable light distribution lamp irradiates a beam to a road surface with a variable light intensity distribution so as to draw a pattern. A controller controls the variable light distribution lamp in cooperation with a HUD system.

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 on 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.

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 on 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.

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 rearview mirror having a display instrument function and a control system thereof are provided. The rearview mirror includes LED lights, glass and a glue-filled fluorophor located between the LED lights and the glass. Light rays emitted from the LED lights pass through the glue-filled fluorophor and are directed towards the glass. The glue-filled fluorophor includes a body and an extension portion, the body is flush with the LED lights, the extension portion is above the body and higher than the LED lights. Light-emitting areas are formed on outer surfaces of the body and the extension portion. The control system of the rearview mirror includes an OBD, an MCU and LED lights. The OBD is configured to acquire information on rpm and vehicle speed, and transmits it to the MCU. The MCU receives the information, generates control information and transmits it to a corresponding LED light for display.