A lighting system enables a lighting pattern to be displayed on a vehicle when the vehicle is in motion. A lighting pattern may include lights that fluctuate (with respect to luminosity) or lights that stay, that is, are solid, at the same luminosity. The length of time that a light, such as an LED lamp, is powered on may vary. Similarly, the amount of time between two adjacent lights are powered off and powered on may also vary. As such, the lighting sequence is flexible and can be customized so that all lights are not on for the same length of time and the time between two lights being powered may vary. A vehicle front alert system allows for improved perception of speed of an approaching vehicle, human, or object.

An object of the present invention is to provide a display device for a vehicle which brings a relation between a linear display section of a display panel placed at a dashboard and a linear lighting placed at the dashboard. A display device for a vehicle includes a display panel and a linear lighting placed at a dashboard of an automobile, a linear lighting placed on a lining of a door on a driver seat side, and a linear lighting placed on a lining of a door on a passenger seat side. The display panel is a panel with liquid crystal on its full range, and includes a linear display section which is continuous with an end of the linear lighting. The linear lighting and the linear display section are capable of linked light emission.

A vehicle lighting fixture and system where the fixture includes light emitting diodes (LEDs) and a lens. A controller monitors vehicle conditions and sends lighting commands to activate one or more LEDs based on the vehicle conditions. The LEDs can be red-green-blue (RGB) LEDs capable of emitting various different colors. The lighting commands can include illumination color, intensity level and on/off. The LEDs can be arranged in groups, where each group is separated from the other groups. The lighting commands can include a blink/steady designation, where blink causes the group to blink in the illumination color, and steady causes the group to steadily light in the illumination color. A blink frequency can control the blink rate in the illumination color. The lighting commands can include an intensity level; where when a group is activated it is illuminated in the illumination color at the intensity level.

The present invention relates to a vehicular lighting device designed to be removably attached to a front and/or rear portion of a vehicle, and that is designed to signify intended straight-ahead travel of the vehicle. The device is comprised of a plurality of LED strips recessed under opaque glass wherein each LED strip is in a vertical arrow or chevron shape. An operator can selectively activate the lights wirelessly and upon reaching an area where a straight-ahead signal is desired, the operator can activate the system and illuminate the LED strips to visually communicate with surrounding motorists. The lights can automatically deactivate after a predetermined time. The vehicular lighting device can be integrated within or retrofitted to almost any type of vehicle, including but not limited to, cars, pickup trucks, commercial trucks, motorcycles, motorcycle helmets, bicycles, and more.

A projection structure that occupies a small space and performs dynamic projection includes a first support, a lens assembly, a film portion, a light source, a motor, a control portion, and a second support, wherein the light source, the film portion, and the lens assembly form a projection light path, the film portion being driven by the motor to rotate. The lens assembly includes at least one lens, and the at least one lens is accommodated in the first support, the control portion being configured to control the motor and/or the light source. The second support is configured to support the first support, wherein the first support and second support are respectively configured to form a first space and a second space of the film portion.

A hidden light device for a vehicle is configured to emit light from a grill of the vehicle, and when the light is not emitted, aesthetics of the grill may be maintained. The hidden light device includes: the grill having an outer surface forming a pattern composed of a plurality of grids; grid panels provided to some or all of the plurality of grids, respectively; an optical module provided inside each of the grid panels to allow the grid panels to form the pattern of the grill when turned off, and to emit light through the grid panel when turned on so as to make the grid panel serve as lighting of the vehicle; and a controller configured to control the optical modules to be turned on and off independently.

Method is provided for performing an animation with a lighting device having a plurality of light sources. An animation is described in a description language that describes at least parts of the animation as movement of an animation object in at least one spatial dimension in a virtual coordinate system. The animation described in the description language is interpreted by a control device controlling the plurality of light sources such that the light sources perform the animation.

To achieve visibility improvement and reduction of sense of incongruity in a vehicular lamp using LEDs. A lighting control device for controlling the on/off of a light source having a first and a second lamp unit each with LEDs including: a control part that generates a control signal for controlling the emitted lights of the lamp units; and a light source drive part for driving the lamp units based on the control signal; where the light emitted from the two lamp units driven by the light source driving part is such that each luminous intensity decreases from a first value to a second value which is smaller than the first value within a common period, and each luminous intensity decreases to the second value during the common period maintaining the relationship that the luminous intensity of the first lamp unit is lower than that of the second lamp unit.

A light module is particularly suited for use in a lighting device for a motor vehicle. The light module has at least one extensive light body and at least one illuminant, the light rays of which are able to exit, or exit, to the outer side via a light-exit area that is surrounded by side areas of the light body. At least one part of the side areas and a back area lying opposite the light-exit area are covered by a reflective or diffusely back-scattering cover. The cover is formed by a frame-like component with a back wall. A side wall of the frame-like component has an opening. The light body is able to be laterally slid into, or is laterally slid into, the frame-like component through the opening. The at least one illuminant is disposed on the side wall with the opening of the frame-like component.

A vehicular lighted exterior door handle system includes a lighted exterior door handle assembly and a light module disposed at the door handle assembly. The light module includes at least three illumination sources linearly arranged at a circuit board and individually operable to emit light. With the door handle assembly mounted at a door of a vehicle, the individual illumination sources are operated responsive to a user input that is actuatable by a driver of the vehicle to activate a turn signal indicator system of the vehicle. With the door handle assembly mounted at the door of the vehicle, and when the illumination sources are operated to emit light responsive to actuation of the user input, an operation sequence of the individual illumination sources is varied between at least a first operation sequence and a second operation sequence based at least in part on movement of the vehicle.