In order to determine a zero position of the actuating drive (14) of a luminous range adjustment of a light module (10) in a headlamp for vehicles, light coming from the light source (1) is directed onto an absorber surface (12). The absorber surface (12) has an opening, through which light passes as a delimited light beam (17). By means of the actuating drive (14), the light module (10) is pivoted in terms of its angle position, an intensity of the light beam (17) passing through the opening being detected by means of a light-sensitive sensor (15) which is arranged behind the absorber surface (12).

A first vehicle includes a light and a controller in communication with the light. The controller is programmed to detect a second vehicle positioned to sense the light, transmit a first message to the second vehicle requesting observation of the light, actuate the light to change state in response to a second message from the second vehicle, and receive a third message from the second vehicle specifying a state of the light.

A vehicle including: a headlight that produces a beam, a touchscreen, a camera, processor(s) configured to: (a) display images captured by the camera on the touchscreen; (b) recast the beam according to touch inputs on the images; (c) disable (b) when the vehicle exceeds a predetermined speed; (d) recast the beam by sweeping the beam from an original position to a final position.

A vehicle headlamp device includes headlamps, which are structured so as to be able to project or irradiate given patterns and given shapes without distortion on a given virtual surface in front of a vehicle from a left headlight and a right headlight, respectively, a camera that captures an image of the area in front of the vehicle, and a state detecting portion configured to detect distortion of the given patterns, which are projected or irradiated on an irradiated surface in front of the vehicle, relative to the given patterns projected or irradiated on the given virtual surface in front of the vehicle, based on the captured image, and also detect a state of the irradiated surface based on the distortion, and a correcting portion configured to correct a relative optical axis deviation between the left headlight and the right headlight.

In accordance with an example embodiment, an arrangement for controlling a lighting device of a working vehicle where the lighting device is directed toward an adjustable operating element of the working vehicle. A control device is connected to the lighting device. The control device is operated to switch the lighting device on according to a detected adjustment of the operating element.

Provided is a beam-steering mechanism, comprising a lens and a light source positioned in a focal plane of the lens. One of the light source and the lens moves relative to the other of the light source and the lens. The light source outputs a light beam at the lens which forms an illumination spot on a surface from the light beam. The illumination spot moves in a direction in response to a movement of one of the light source and the lens.

An illuminating apparatus for a vehicle, in particular a headlamp for a vehicle, comprises a housing, at least one light module for generating a light function, a supporting frame, which is pivotably arranged in the housing. The light module is mounted on the supporting frame such that it is pivoted along with the pivoting of the supporting frame. A manually actuatable adjuster pivots the supporting frame around a horizontal axis. The adjuster has a setting spindle, which is rotatable around its longitudinal axis and is used to pivot the supporting frame, a servomotor including an adjusting element, which is linearly displaceable in a displacement direction for the purpose of implementing an automatic headlamp leveling control. The setting spindle and the adjusting element being connected to each other in such a way that a movement of the adjusting element in the displacement direction effectuates a movement of the setting spindle.

A light system including: a housing that is connectable within a vehicle, the housing including an interior and an exterior; a motor located within the interior of the housing and having a portion that extends through an opening in the housing to the exterior of the housing so that the motor is capable of moving the light system relative to the vehicle; and one or more seals that prevent fluids and/or debris from contacting the portion that extends through the opening in the housing, the opening in the housing, or both.

A method for controlling a configuration state of at least one vehicle device of a motor vehicle, wherein calibration state data which signal a current calibration state of a self-calibration routine carried out by the calibration device during a driving operation of the motor vehicle are received from a calibration device of the vehicle device in question. A progress value is assigned to the respective current calibration state data in accordance with a predefined evaluation rule and a configuration data set which defines a configuration state of the vehicle device in question is selected from a plurality of predefined configuration data sets depending on the current progress value, and the vehicle device is configured by the selected configuration data set, wherein at least one function parameter is set according to the respective configuration data set for the execution of the least one sub-function.

An inertial measurement sensor system of a vehicle is calibrated during a driving operation of the vehicle and is based on a determination of a misalignment of a sensor coordinate system of the inertial measurement sensor system with respect to a vehicle coordinate system. The determination of the misalignment is interrupted in situations in which a level deviation from a reference level exceeding a predetermined threshold value is determined by means of at least one of the vehicle's own level sensors.