A vehicle is provided to analyze a signal received by a communicator and identify a first electronic device that transmits the received signal and a second electronic device that will transmit the received signal. The vehicle identifies a lighting algorithm that corresponds to an analysis result of the received signal and sequentially turns on a plurality of lighting devices based on the identified lighting algorithm.

The invention discloses a projector unit comprising a housing on which a light module is supported to be pivotable in two spatial directions. Via eccentrics which are supported on the housing, the light module can be rotated in two axes of rotation each having a specific angle of rotation. Preferably, via one eccentric, the light module is pivoted along with the axis of rotation and, via the further eccentric, the light module is rotated about the axis of rotation.

A vehicle includes: a display device that includes plural light-emitting bodies at a vehicle cabin inner side; and an interior material that has plural through holes penetrating in a thickness direction formed therein, and that is disposed at a vehicle cabin inner side of the display device so as to cover the display device.

A device for displaying at least one pictogram inside a vehicle passenger compartment. The device includes a light source suitable for emitting light in response to a control signal, and an opaque covering layer having a through opening defining the pictogram. A photosensitive layer extends facing or in the opening. When the light source is deactivated, the photosensitive layer is opaque and has the same color as the covering layer. When the light source is activated, the photosensitive layer reacts so as to render the pictogram defined by the opening of the covering layer visible for an occupant of the vehicle passenger compartment.

An apparatus for controlling an in-vehicle lighting environment includes: a passenger state determination unit that determines a state of a passenger using a gaze of the passenger photographed by a camera of a vehicle; a driving state determination unit that determines a driving state of the vehicle using an acceleration value measured by an acceleration sensor of the vehicle; an external environment state determination unit that determines an external environment state of the vehicle using an external illuminance value measured by an external illuminance sensor of the vehicle; and a lighting environment control unit that controls an illuminance and a color of a first light disposed inside the vehicle based on data determined by at least one determination unit among the passenger state, driving state, and external environment state determination units.

A system for controlling interior lighting of a mobility device may change a lighting environment inside a mobility device based on outside environmental factors and the state of an occupant, thereby improving an interior aesthetic property, ensuring the occupant's convenience, and enabling safe traveling.

Disclosed are an apparatus and a method for controlling vehicle interior lighting. The apparatus for controlling vehicle interior lighting according to an aspect of the present disclosure includes: a first communication module configured to communicate with a display device installed in a vehicle interior; a lighting module configured to include a plurality of light sources; and a processor connected to the first communication module and the lighting module, wherein the processor is configured to: receive first image information, which is information on an image being output on the display device, through the first communication module; generate first color information based on the first image information; and control the lighting module based on the first color information.

An assist system for a motor vehicle having a sensor arrangement, a lighting system for a vehicle interior compartment, which has at least one lighting element, and a control unit. The control unit is configured so as by use of the sensor arrangement to detect at least one movement parameter of the motor vehicle. In order to provide a driver of a motor vehicle with relevant driving information in an enhanced manner, the control unit is configured to actuate the lighting system in dependence upon at least one detected movement parameter of the motor vehicle in order to generate a light signal and thereby provide driving information for a driver.

A component for a vehicle interior configured to present a composite visual effect is disclosed. The component may comprise a composite structure comprising a base and a cover and a light-transmitting element to transmit light to provide illumination and a reflecting element to provide reflected light. The composite visual effect may comprise visual effect of reflected light and/or visual effect of illumination and/or a visual effect from the cover and/or a visual effect from the base. The reflecting element and the light-transmitting element may be within the composite structure; the composite structure may comprise an open space. The composite visual effect may be presented at a surface of the cover; visual effect of illumination may comprise light transmitted through the composite structure. The cover may comprise a cover layer/material. The reflecting element may comprise a surface. The composite structure may comprise a light-transmissive material and/or an opaque material.

The invention discloses a projector unit comprising a housing on which a light module is supported to be pivotable in two spatial directions. Via eccentrics which are supported on the housing, the light module can be rotated in two axes of rotation each having a specific angle of rotation. Preferably, via one eccentric, the light module is pivoted along with the axis of rotation and, via the further eccentric, the light module is rotated about the axis of rotation.