A projection film and a projection device are provided. The projection film includes a pattern layer, a first light-transmission layer, a second light-transmission layer and a plurality of light-transmission particles. The pattern layer includes a light-transmission portion and a non-light-transmission portion. The first light-transmission layer is disposed below the pattern layer. The second light-transmission layer is disposed below the first light-transmission layer. The light-transmission particles are disposed between the first light-transmission layer and the second light-transmission layer. The impurity generated by the light-transmission particles will be reduced by utilizing a second light-transmission layer having a refractive index close to the refractive index of the light-transmission particles.

A vehicle includes a mirror light assembly. A plurality of light sources is disposed in a housing and a plurality of reflectors surrounds each light source having a focal axis that is offset from each of the remaining reflectors. A sensor is configured to detect an object proximate the vehicle. A controller is configured to selectively illuminate the light sources to illuminate the object.

A composite pane is presented. The composite pane includes an outer pane and an inner pane that are bonded to each other via an intermediate layer. The composite pane further includes a light-diffusing glass fiber that is suitable for emitting light by diffusion via its side wall along its extension length. According to one aspect, the glass fiber is arranged, in sections, between the intermediate layer and the outer pane, and is arranged, in sections, between the intermediate layer and the inner pane. According to another aspect, the glass fiber is routed through an opening in the intermediate layer.

A lighting device for a motor vehicle includes a housing having a front lighting surface, and a substantially planar plate and at least one lighting module mounted on the plate. The plate has a general plane of extension that is horizontal when the housing is mounted in the vehicle, and has a surface referred to as a lower surface and a surface referred to as an upper surface. The plate includes a first control system which includes a first male element and is arranged to cause translation of the first male element in an axis parallel to the plate, the plate being provided with a first recess receiving the first male element. A second control system that includes a second male element and is arranged to cause translation of the second male element in an axis perpendicular to the plate, the plate being provided with a second recess on its upper or lower surface that receives the second male element. The housing thus takes up less space above the modules, which can easily be raised.

Systems and methods are disclosed for lighting a vehicle. A system includes a plurality of lights disposed on a vertical take-off and landing (VTOL) vehicle configured to turn on and off, change color, and/or change intensity. The system further includes a controller configured to determine a lighting scheme for the plurality of lights, the lighting scheme including a setting for the plurality of lights, the setting including one or more of turning the plurality of lights on or off, setting a color of the plurality of lights, and setting an intensity of the plurality of lights, determine a location in or associated with the VTOL vehicle, wherein the lighting scheme is configured to guide a person to the location, and transmit a signal to the one or more lights to execute the lighting scheme to guide the person to the determined location.

A composite pane is presented. The composite pane includes an outer pane and an inner pane that are bonded to each other via an intermediate layer. The composite pane further includes a light-diffusing glass fiber that is suitable for emitting light by diffusion via its side wall along its extension length. According to one aspect, the glass fiber is arranged, in sections, between the intermediate layer and the outer pane. According to another aspect, the glass fiber is arranged, in sections, between the intermediate layer and the inner pane.

An illumination system includes a light assembly configured to emit light. A hinge assembly is positioned away from the light assembly. A frame bracket, a door bracket and a hinge pin rotatably couple the frame and door brackets. A luminescent structure is positioned on the hinge assembly.

To provide a lamp unit in which rattling of a light-emitting element is prevented, a lamp unit includes: a holder member attached to an attachment object, a base board provided with a light-emitting element coupled on a main surface thereof; a retaining member that engages the holder member to sandwich the base board between the retaining member and the holder member such that the base board is retained at a prescribed position on the holder member; and a cover member that is at least partially light-transmissive and is attached to the holder member such that the cover member cooperates with the holder member to define a housing chamber for housing the base board and the retaining member.

The invention relates to a luminous module for automotive vehicle including a light source and a projection optic designed to project a light field onto the ground. The luminous module also includes an element with a variable light transmission rate positioned between the light source and the projection optic, the element with a variable light transmission rate includes at least one first portion and at least one second portion. Each of these portions has a different light transmission rate so that the image sectors respectively formed by the first portion and the second portion have the same luminous intensity.

A vehicle door light assembly includes a base including a cavity and one or more bulb connectors positioned within the cavity; a connector for connecting the one or more bulb connectors to a power source; a lens assembly releasably connected to the base, wherein the lens assembly comprises: a lens, a light source adapted to emit light through the lens to the exterior of the light assembly, and a projector adapted to project an image to the exterior of the light assembly when the door is in an open position; and a blub connector releasably connected to the one or more bulb connectors to supply power to the lens assembly.