A vehicular dual mode illumination module includes mounting structure configured for mounting at a vehicle, a first light emitting diode (LED) operable to emit visible white light when electrically powered, and a second near-infrared (near-IR) LED operable to emit non-visible near-IR light when electrically powered. When the vehicle is parked and the first LED is electrically powered, the first LED emits visible white light to provide visible illumination at a first region exterior the vehicle. Electrical powering of the first LED is locked-out during movement of the vehicle. When the second near-IR LED is electrically powered, the second near-IR LED emits non-visible near-IR light to illuminate a second region exterior the vehicle and to provide non-visible illumination for a camera viewing the second region. Electrical powering of the second near-IR LED is not locked-out during movement of the vehicle.

A lighting apparatus for a vehicle may include a lamp housing part mounted on a vehicle body, a projection optical system disposed within the lamp housing part and configured to radiate light, and a reflection part rotatably disposed in a light path of the light radiated by the projection optical system and configured to reflect, toward a lighting-up surface of the vehicle, the light radiated by the projection optical system.

Provided is a vehicle light system using existing interior lamps and exterior lamps, the interior lamps and the exterior lamps cooperating to provide dramatic illumination. The vehicle light system can include: a lighting control unit that generates and outputs a control signal for controlling the turning on and off of both the exterior lamps and the interior lamps; a light source driving unit that drives the light source of any lamp of the vehicle lamp group on the basis of the control signal provided from the lighting control unit; an in-vehicle device that is mounted on the vehicle and that has a wireless communication function; a portable device that can be carried outside the vehicle by an occupant of the vehicle and that has a wireless communication function with the in-vehicle device; and an in-vehicle network configured to connect the in-vehicle device and the lighting control unit. The lighting control unit acquires positional information for the portable device through the in-vehicle network, and generates and outputs a control signal whereby both the interior lamps and the exterior lamps cooperate to provide lighting when the occupant enters a predetermined range. The commercial value of a vehicle light can thereby be increased.

A headlamp for vehicles is provided with a light source unit containing numerous light sources, and with a hologram unit containing numerous hologram segments for generating a predefined light distribution. Each of the hologram segments has at least one dedicated light source. The hologram segments are reflection hologram segments behind the respective dedicated light sources in the direction light is emitted by the headlamp, which light from the light sources strikes them at an acute angle and is reflected in the light emission direction in accordance with the holographic diffraction information stored in the respective reflection hologram segments.

A lamp system includes a variable light distribution lamp. The variable light distribution lamp 110 irradiates a beam having a variable light intensity distribution to a road surface. A light distribution controller controls the variable light distribution lamp. In response to the start of a predetermined event, the light distribution controller draws a pattern that corresponds to the event. In response to the end of the event, the light distribution controller extinguishes the pattern.

A decorative radome including a radio-transmissive substrate having a first surface on a first side and a second surface on a second side; and a first surface radio-transmissive decorative coating; methods of manufacturing a PVD coated system include applying a hard coating to the substrate; applying a PVD coating by magnetron sputtering to the substrate; and laser etching one or more of a pattern or a graphic into the PVD coating; and A decorative PVD coated item, comprising: a substrate; a hard coating applied to the substrate; a PVD coating provided on the hard coating and the substrate, wherein the PVD coating is laser etched with one or more of a pattern or a graphic so that the PVD coating is at least partially removed and the pattern or the graphic is revealed as a result of the contrast between the substrate and the PVD coating.

A vehicle puddle lamp assembly is provided that includes a plurality of light projectors located on a vehicle and configured to illuminate different lighted image patterns on a ground surface adjacent to the vehicle. The vehicle puddle lamp assembly includes a controller for sequentially activating the plurality of light projectors to generate an animated lighted image on the ground surface. The animated image moves in a location based on a door position.

According to one aspect, personalized vehicle ambient lighting on a vehicle is provided. Presence information associated with a user is detected. Image color information is captured from an image is taken by a camera such that the user is within the image. Image color information associated with the user is extracted from the image. Red, green, blue (RGB) color values indicative of a color associated with the user are created. A light emitting diode (LED) activation scheme based on the RGB color values associated with the user is generated. Portions of a plurality of RGB LEDs are activated based on the LED activation scheme.

A vehicle lamp for a vehicle includes a housing, and an optical system that is housed in the housing and generates image light. The housing includes a window in a partial area of a wall face of the housing. The optical system includes a lens group that generates the image light, an optical path bending mirror that bends an optical path of the generated image light, and a concave mirror that reflects the image light with the optical path bent and emits the image light to an external space from the window. In a state in which the vehicle lamp for a vehicle is installed on the vehicle, the concave mirror is disposed up to a position higher than the window.

An exit warning system is provided for a motor vehicle having a sliding door. That exit warning system includes a sliding door status sensor, a projector and a warning signal. The warning signal is projected by the projector onto pavement laterally adjacent a motor vehicle when the sliding door is opened in order to warn oncoming drivers that someone could potentially be leaving the vehicle through the open sliding door.