A vehicle lighting system includes a plurality of lights. A controller is in communication with a sensing system for detecting the presence of an electronic device carried by a vehicle occupant. The controller is configured to assign a seating area to the electronic device based on a detected cabin location of the device and operate the lights based on the assigned seating area and information indicative of an impending vehicle departure of the vehicle occupant.

A vehicle lighting system includes a plurality of lights. A controller is in communication with a sensing system for detecting the presence of an electronic device carried by a vehicle occupant. The controller is configured to assign a seating area to the electronic device based on a detected cabin location of the device and operate the lights based on the assigned seating area and information indicative of an impending vehicle departure of the vehicle occupant.

A trim element on a vehicle is comprised of at least one trim element body and a design area that is modified to individualize the vehicle appearance. The design area includes at least one plastic panel which is structured for a three-dimensional appearance by laser processing, with the outer surface being unaffected.

A resin component includes a natural wooden veneer, a light-transmitting ink printed layer, an adhesive layer, and a light-transmitting reinforcement layer. The veneer includes a sparseness portion and a denseness portion of conduits, is 50% or more and 80% or less in light transmittance, and is 0.1 mm or more and 0.6 mm or less in plate thickness. The light-transmitting ink printed layer is formed on a first surface of the veneer, is 2 m or more and 20 m or less in thickness, and contains a pigment or a dye. The adhesive layer is formed on a second surface which is an opposite side of the first surface of the veneer. The reinforcement layer is formed on a surface, which is an opposite side of the veneer, of the adhesive layer.

A vehicle cabin wayfinding assembly is configured to be secured within an internal cabin of a vehicle. The vehicle cabin wayfinding assembly may include a placard having a front face, and at least one directional reflector offset from the front face of the placard. The directional reflector(s) defines one or more indicia, and is configured to directionally reflect light that is emitted from a light source into an application zone.

A vehicle cabin wayfinding assembly is configured to be secured within an internal cabin of a vehicle. The vehicle cabin wayfinding assembly may include a placard having a front face, and at least one directional reflector offset from the front face of the placard. The directional reflector(s) defines one or more indicia, and is configured to directionally reflect light that is emitted from a light source into an application zone.

A composite floor panel includes a cover sheet, a base sheet, a core layer, and a plurality of light sources. The cover sheet has a user-facing side and an underside that is opposite from the user-facing side. The base sheet is below the underside of the cover sheet. The core layer includes a plurality of honeycomb cells bonded to one another. The core layer is disposed between the cover sheet and the base sheet. The light sources are configured to emit light through the cover sheet to provide lighting effects above the user-facing side of the cover sheet. The light sources are disposed between the user-facing side of the cover sheet and the core layer.

A composite floor panel includes a cover sheet, a base sheet, a core layer, and a plurality of light sources. The cover sheet has a user-facing side and an underside that is opposite from the user-facing side. The base sheet is below the underside of the cover sheet. The core layer includes a plurality of honeycomb cells bonded to one another. The core layer is disposed between the cover sheet and the base sheet. The light sources are configured to emit light through the cover sheet to provide lighting effects above the user-facing side of the cover sheet. The light sources are disposed between the user-facing side of the cover sheet and the core layer.

An exemplary vehicle container assembly includes an outer bin, an inner bin received within the outer bin, and a lighting assembly that illuminates an interior of the inner bin through a translucent area of the inner bin. An exemplary vehicle container illumination method includes illuminating an interior area of an inner bin through a translucent area of the inner bin.

An assembly with a computer interface module (CIM) is described herein. The assembly may be coupled to, and may receive power from, wiring of a vehicle. The assembly may be installed via a mounting base. The mounting base may include the CIM, configured with a receptacle for coupling to a cable. The CIM may include one or more printed circuit boards and/or a computing system. The CIM may be configured to provide power to an electronic device, such as via the cable. Additionally, the CIM may be configured to communicate with one or more electronic devices via a wired and/or wireless connection. The assembly may include a lamp unit with an efficient light source. The lamp unit may include a lamp configured to adjust between white, red, and/or green lights. The assembly may include a clamping system configured to securely house a mobile computing device.