A vehicle light module, a headlight assembly, and a method for communicating information at a panel having transparent and opaque states; a projector device projects visual representations toward the panel where visual representations are displayed on the panel when in an opaque state and through the panel when in a transparent state.

A wireless lighting system used with demountable equipment, including truck-mounted forklifts (TMFL). The system includes a transmitter installed in a lighting harness or trailer lighting socket on a transporting vehicle. When the transporting vehicle's notification lights or signals (turn signals, tail lights, brake lights, clearance lights, reverse lights) are activated, a wireless signal is transmitted to a wireless receiver located on the TMFL, and a corresponding light or lights are activated on the TMFL. The system utilizes the power source of the TMFL to power the notification lights of the TMFL while being transported. Further, when the forklift is dismounted and in operation, the wireless lighting system is disabled until the forklift is returned to the transport position on the transport vehicle. This prevents actuation of the lights on the forklift unless the forklift is on the transport vehicle.

An apparatus and system are disclosed and include a vehicle interior lighting system comprising that includes a light engine with a plurality of independently addressable light emitting diode (LED) segments, each independently addressable LED segment including at least one LED, a flexible printed circuit board (PCB) having a base and plurality of legs extending from the base, each leg supporting an independently addressable LED segment, and a light guide plate configured to provide illumination from the plurality of independently addressable LED segments inside the vehicle. A processor may be configured to receive information from a o vehicle sensing system, a vehicle communication system, or a detection system, and may generate a signal. A controller may be configured to provide one or more light control signals to modify at least one light characteristic of at least one of the plurality of independently addressable LED segments based on the signal.

A removable light for a towed vehicle includes a housing with a low profile shape, an anchor, a safety tether strap, and lens protection features.

A flexible, sheet-like, multi-layered lighting assembly for applying to a surface. The lighting assembly includes an on-board power source for powering the lighting assembly. The lighting assembly includes a sheet-like electroluminescent light source that is activated by power from the power source, and when activated, emits light. The power source may include a flexible thin sheet-like battery, a wireless power receiver, or a combination thereof. The wireless power receiver may receive power from a power signal generated by a wireless power transmitter; and may operate to directly power the electroluminescent light source, or may recharge the battery. The lighting assembly includes outer and inner polymer layers for protecting the other layers of the lighting assembly, and an adhesive layer on the inner polymer layer for adhering the lighting assembly to a surface.

A method and an apparatus, according to an exemplary aspect of the present disclosure includes, among other things, a vehicle headlamp assembly comprising at least one laser and a controller in communication with the vehicle headlamp assembly to control the at least one laser to provide a plurality of functions. An input device is configured to receive input commands to control the at least one laser to provide a selected one of the plurality of functions.

An optical device configured to be attached to a rear of a vehicle to provide exterior lighting, and to control the direction and intensity of the exterior lighting. The optical device having a socket configured to be attached to the rear of the vehicle, a light positioned within the socket and configured to emit light rays, an inner lens positioned within the socket and configured to receive the light rays, an outer lens positioned within the socket and surrounding the inner lens, and a molded plastic device positioned in front of or attached to the outer lens to create a cut pattern to allow the light rays to be focused in a desired area.

Systems and methods for replicating vehicular illumination are disclosed. According to an aspect, a system includes a detector configured to sense light emitted by a host light of a host vehicle for detecting a lighting state of the host light. The system also includes a communications system configured to communicate the detected lighting state between the host light and the remote light. Further, the system includes a remote light being located on one of the host vehicle and an operator of the host vehicle and configured to replicate the lighting state of the host light.

A headlamp illumination source that switches from a first configuration conforming to on-road illumination standards to a second configuration that does not conform to on-road illumination standards. The switching is preferably controlled by a wireless signal but in some embodiments the switching can be controlled by a hard-wired signal or by a switch proximate the illumination source itself.

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.