When light is off, a transparent appearance is obtained, while when the light is on, light is seen through a transparent spot. The present invention includes a light source portion and a reflective portion. The light source portion emits light. The light source portion is disposed at a position shifted with respect to an emitting direction of emitted light from the reflective portion. The reflective portion reflects the light from the light source portion and emits it in a predetermined direction. The reflective portion is constituted by a transparent member with a refractive index at least in a visible light area larger than 1. As a result, in the present invention, the transparent appearance is obtained when the light is off, while the light is seen through the transparent spot when the light is on.

A device comprising an organic light-emitting diode comprising an organic layer sequence, a radiation exit area and an encapsulation, wherein the organic layer sequence comprises at least one radiation-emitting region which generates electromagnetic radiation in the spectral range from infrared radiation to UV radiation during operation, and wherein the encapsulation forms a seal of the organic layer sequence against environmental influences, at least one touch-sensitive operating element, wherein the at least one touch-sensitive operating element comprises at least one touch sensor, wherein the device is flexible.

A system and method for operating an automated vehicle. A sensor is configured to monitor an ORU (other road user) external to the automated vehicle thereby identifying the ORU with respect to the automated vehicle. A processor determines a state of the ORU and a context of the ORU and communicates a message to the ORU based on the determined state of the ORU and the context of the ORU.

The invention describes a passive matrix single-color LED display assembly comprising a matrix of row conductor lines and column conductor lines; an array of direct-emitting LED packages, wherein the anode of each LED package is electrically connected to one of the row conductor lines and the cathode of that LED package is connected to one of the column conductor lines; and a driver configured to apply a bias voltage to a row conductor line and to apply a bias voltage to a column conductor line according to an image to be displayed.

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.

Light-based devices may be provided that emit light. The light-based devices may be incorporated into systems such as vehicles. The light-based devices may include light sources such as light-emitting diodes and lasers. Mirrors may be used to collimate light from the light sources. Light modulators may be used to pattern light from the light sources. The light sources may include light sources of different colors. Arrays of pixels may be used to provide dynamically varying patterns of emitted light. A light source may produce light that is diffracted by an array of diffractive elements on a window. Mechanical and electrical shutters may obscure light sources, mirrors, and light-emitting components mounted on windows.

A windshield light strip assembly includes a molding that has a channel integrated into the molding to receive an outer edge of a windshield on a motorcycle. A plurality of light emitters is each integrated into the molding and each of the light emitters emits light outwardly from the molding. The light emitters are spaced apart from each other and are distributed along a full length of the molding. A wiring harness is coupled to the molding and the wiring harness is electrically coupled to a power source comprising an electrical system of the motorcycle. Additionally, each of the light emitters is in electrical communication with the wiring harness and each of the light emitters is turned on when the motorcycle is turned on.

A vehicle courtesy signaling device for communicating a wave to a proximate person at night includes a housing, which has a first face that is substantially transparent. A fastener engaged to the housing can selectively engage a rearview mirror or window of a vehicle so that the housing is removably engaged to the rearview mirror or the window, with the first face of the housing being visible through the window. A plurality of light emitting diodes is engaged to the housing and is positioned in an interior space defined thereby. The light emitting diodes selectively emulate a waving hand.

A partition member (20) partitions a space occupied by a person from the outside. The space is, for example, an interior of a mobile object (30) such as a vehicle. A substrate (100) is disposed on a surface of the partition member (20) on the space side and has optical transparency. On a surface (a second surface (110b)) of the substrate (100) on the space side, a plurality of light-emitting units and an insulating layer (150) are disposed. Each light-emitting unit (140) includes a light-transmitting first electrode (110), an organic layer (120), and a second electrode (130) in this order from the external side. The insulating layer (150) defines the plurality of light-emitting units (140). A third region (106: a light-transmitting region) in the substrate (100) in which the second electrode (130) and the insulating layer (150) are not formed is provided between light-emitting units (140) next to each other.

A vehicular rear window assembly includes a window panel having an inner glass panel and an outer glass panel laminated together. A lighting device includes a plurality of light sources arranged on a circuit element. The vehicular rear window assembly is configured to be disposed at a rear portion of a cabin of a vehicle. The lighting device is disposed between the inner glass panel and the outer glass panel. The light sources, when electrically powered, emit light that is visible through the outer glass panel of the window panel so as to be viewable by a person viewing the vehicular rear window assembly from exterior and rearward of the vehicle. At least some of the light sources of the lighting device are electrically powered responsive to actuation of a brake of the vehicle to provide a center high mounting stop lamp feature that is integrated within the window panel.