The disclosure relates to a control device for a motor vehicle, having a sensor unit that is configured to contactlessly detect an object in a sensor zone situated on an outer side of the motor vehicle, and a control unit that is configured to generate a first control signal for at least one actuator according to the detected object, which a movement of an access element can be influenced. In order to improve the reliability and user-friendliness of a control device of a motor vehicle comprising a contactless sensor system, it is provided that the control device comprises a projector unit that is configured to project a light pattern that marks off at least one portion of the sensor zone.

A lamp for a vehicle using micromirrors includes a variable beam forming part that irradiates light and forms variable beam patterns. In particular, the variable beam forming part includes a first optical part that irradiates the light; a reflection part including a plurality of micromirrors and configured to reflect the light of the first optical part; a second optical part that transmits the light reflected by the reflection part; and a housing that supports the first optical part, the second optical part, and the reflection part. The plurality of micromirrors are configured to adjust their postures between a first posture in which the light incident from the first optical part is reflected in a first direction and a second posture in which the light incident from the first optical part is reflected in a second direction.

A system and method are provided and include a light source projector with a positional actuator mounted on a subject vehicle that projects a laser line on a roadway upon which the subject vehicle is traveling. A controller is in communication with a platoon vehicle traveling in front of or behind the subject vehicle in a platoon and controls the positional actuator to project the laser line on the roadway between the subject vehicle and the at least one platoon vehicle.

A car door opening pre-detection system for a car includes a first detecting module, a second detecting module and a control module. The first detecting module is installed within the car. The first detecting module issues a motion detecting signal according to a result of detecting a motion of a palm. The second detecting module is installed outside the car. When the car is stopped, the second detecting module is enabled to selectively provide a first detection range or a second detection range. The control unit judges whether a car door of the car is about to be opened according to the motion detecting signal. When the car is stopped and the control module judges that the car door is about to be opened, the second detecting module provides the second detection range to detect whether there is a moving object behind the car.

A vehicle lamp for emitting light at various locations adjacent to a vehicle while having a simplified configuration is provided. A vehicle lamp includes a light-emitting unit that emits light to form a road surface pattern, and a movable unit on which the light-emitting unit is mounted. The light generated by the light-emitting unit enables the road surface pattern to be formed on different locations of a road surface adjacent to the vehicle as the movable unit rotates.

Floor projection device for a motor vehicle for producing at least one floor projection, wherein the floor projection device has an illuminant and a projection means, wherein the illuminant is configured to generate and at least partially emit light onto the projection means, wherein the projection means is configured to project the light which is emitted by the illuminant onto the projection means, in a state of the floor projection device integrated into the motor vehicle, onto a carriageway as a floor projection to the side of the motor vehicle, wherein the floor projection comprises at least two light segments separated from one another, wherein the illuminant has for this purpose at least two individually controllable light sources, wherein each light segment is assigned at least one light source, wherein the projection means has a focal point or a focal line, wherein at least one of the at least two light sources is arranged offset relative to the focal point or focal line of the projection means, wherein a first portion of the light is emitted along a first beam direction, which is directed directly onto the projection means, wherein a second portion of the light is emitted in a second beam direction, which is not directed directly onto the projection means, wherein the floor projection device has absorption means and/or deflection means, which are configured to at least partially absorb and/or deflect the second portion of the light such that the second portion of the light does not reach the projection means.

In a vehicle door mirror device, a projection device projects a graphic from a graphic film. The projection device is inserted into a cap in a state in which a holding tube of the cap has been inserted into a through hole in a visor, and the holding tube is held between a peripheral face of the through hole and a protrusion portion of the projection device. The projection device is thus installed at the visor in a manner retained by the cap alone. This thereby enables easy installation of the projection device to the visor.

An illumination apparatus that illuminates an illumination zone having a first direction and a second direction crossing the first direction is provided with a light source to emit a coherent light beam, and a diffraction optical device to diffract the coherent light beam incident from the light source. The diffraction optical device diffracts the incident coherent light beam so that a width of the illumination zone in the second direction gradually becomes wider along the first direction of the illumination zone from a nearer side to the diffraction optical device.

Each of a pair of left and right vehicle head lamps includes a plurality of optical units in a lamp chamber. A variable light distribution type optical unit that changes a light distribution mode of a high beam depending on a surrounding state and a traveling state of a vehicle is disposed in a first vehicle head lamp on a passenger seat side, and a figure drawing optical unit capable of forming a desired figure on a road surface in front of the vehicle by emitted light is disposed at a position symmetrical to the variable light distribution type optical unit in a second vehicle head lamp on a driver seat side.

In a door mirror device for a vehicle, a projector protrudes out toward a lower side from a circuit board, and the projector projects a pattern onto a ground surface. Moreover, illuminating LEDs and guide bodies are fixed to a lower surface of the circuit board. Due to the illuminating LEDs generating lights and the guide bodies guiding these lights, the guide bodies irradiate the lights from lower ends, and the ground surface is illuminated. Here, the lower ends of the guide bodies are disposed further toward a lower side than the projector. Therefore, shadows, which are due to the projector, arising in lights that illuminate the ground surface can be suppressed.