The invention relates to a sensor device for a vehicle for detecting a road user in a vehicle environment, wherein the road user transmits a communication signal, with a first antenna and a second antenna, wherein the first antenna and the second antenna are designed to receive the communication signal with a phase displacement, a processor which is designed to determine a transmission direction of the communication signal on the basis of the phase displacement between the communication signal received at the first antenna and the communication signal received at the second antenna, and a distance sensor which is designed to capture angle-dependent distance measured variables of the vehicle environment, wherein the processor is designed to determine a position of the road user on the basis of the transmission direction of the communication signal and of the angle-dependent distance measured variables of the vehicle environment.

A lighting device is provided for controlling the photometric distribution of light emitted by two or more LEDs. The lighting device may be integrated with a control system of the vehicle and may be controlled by a remote controller. The lighting device may be capable of being operated in one or more modes of operation based on operating conditions, user input, or both. Operating conditions may include vehicle conditions, environmental conditions, and user conditions. The controller may operate a software application to enable the user to modify, control, or otherwise regulate any mode of operation or other feature of the lighting system.

According to the present invention, a system for verifying a lamp operation includes: a camera for acquiring an image around the vehicle; and an image processor for determining whether the lamp is broken based on the image acquired by the camera, in which the image processor receives a turn on state of the lamp through internal communication of the vehicle connected to the lamp and is operated in synchronization with timing at which the lamp is turned on and the image processor determines whether the lamp is broken by comparing images before and after the lamp is turned on if it is determined that the lamp is turned on.

There is provided a vehicular component which include an illumination device capable of favorably illuminating the periphery of a host vehicle. There is provided a vehicular component that includes an illumination device (3) installed on a roof part (30) and configured to cover a vehicle interior space from above. The illumination device (4) includes a light source unit (100) and a light emitting unit (300). The light emitting unit (300) configured to emit light by light emitted from the light source unit (100) is provided along an outer peripheral edge (31) of the roof part (30) in a top view of the vehicle (1).

A powered step assembly includes a drive mechanism and a step coupled to the drive mechanism. The step includes a first end and a second, opposite end. When the drive mechanism is activated, the step is both lowered linearly along an axis extending through the first end, and is also rotated about the axis, such that the second end is a free end configured to rotate away from a motor vehicle.

A lighting apparatus for a motor vehicle includes a processing module configured to receive, process and send signals from a data bus of the motor vehicle, and a light-emitting diode (LED) unit configured to emit light of adjustable brightness and prescribed color locus. The LED unit has a microcontroller and a plurality of LEDs, where the microcontroller and the LEDs are surrounded by a package of the LED unit. The LED unit is further configured to communicate bidirectionally with the processing module so that a present status value of the LED unit, which status value is representative of a functionality of the LED unit, is ascertainable by the LED unit and the processing module.

A lighting system for a vehicle is disclosed. The lighting system comprises an imager configured to capture image data in a plurality of image frames in a rearward field of view. The system further comprises at least one headlamp configured to output an emission of light at a plurality of elevations and a controller. The controller is in communication with the imager and the headlamp. The controller is operable to process the image data to identify features in a first frame and a second frame. The controller is further operable to identify a movement of the features from the first frame to the second frame and adjust the elevation of the output emission in response to the movement.

The present invention relates to a daylight opening surround (3; 101) for a motor vehicle (1). The surround (3; 101) has a light transmitting element (15; 103) for transmitting light from a light source (19; 111). The present invention also relates to a light transmitting element (15; 103) for a surround (3; 101); a controller for a daylight opening surround (3; 101); and a motor vehicle (1).

A method for detecting misadjustments of a headlamp of a vehicle and to a device for this purpose. It is provided that the vehicle is provided with a detector with which at least one light signal of another road user is detected, and wherein the vehicle is equipped with a control unit with which light signal information of the detector is captured and by means of which adjustment information for correcting the misadjustment of the headlamp is output as a function of the captured light signal information.

A parking assistance system for a motor vehicle includes a monitoring unit for detecting an object in the vicinity of the vehicle and a light system connected to the monitoring unit and configured to emit light into the area surrounding the motor vehicle. The monitoring unit is configured to sense the bearing of an object and to control the distribution of the light emitted from the light system as a function of the sensed bearing.