A vehicle headlight system that can be used together with a vehicle control unit (3) that switches from an autonomous driving mode to a manual driving mode on the basis of external information about a vehicle (1), wherein the system has a headlight (100) mounted on the vehicle (1), and a lamp control unit (4) that controls the headlight (100), the lamp control unit (4): controlling the headlight (100) so as to form a first light distribution pattern (P) when the vehicle control unit (3) is executing the autonomous driving mode; controlling the headlight (100) so as to form a second light distribution pattern (Q) when the vehicle control unit (3) is executing the manual driving mode; and controlling the headlight so as to form a third light distribution pattern (R) that irradiates at an illuminance equal to or greater than the illuminance of the first light distribution pattern (P) and/or irradiates a range equal to or greater than the irradiation region of the first light distribution pattern (P), when transitioning from the autonomous driving mode to the manual driving mode.

A headlight control system (10) for a motor vehicle including, a controllable headlight (24) adapted to generate variable illumination of the vehicle environment, an imaging apparatus (11) adapted to capture images (100) from a region in front of the motor vehicle, and a data processing device (14) adapted to perform image processing of images (100) captured by the imaging apparatus (11) and to vary the light characteristics of the controllable headlight (24) depending on the image processing. A machine learning model (27) is implemented in the data processing device (14) which is trained to estimate and output an output signal (29) representing a desired illumination of the vehicle environment from one or more images (28) received as input from the imaging apparatus (11).

A vehicle light-adjusting system includes a light-adjusting member arranged in an incident portion into which an external light enters, a control unit that controls transmittance of the light-adjusting member, and an instruction detecting unit. The light-adjusting member is divided into a plurality of parts. The instruction detecting unit detects an instruction given by the occupant in a non-contact manner to the light-adjusting member by at least one of gesture and words. When the instruction detecting unit detects the instruction designating any one of the parts, the control unit adjusts an individual transmittance of the part corresponding to the instruction detected by the instruction detecting unit.

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 cancellation device for an automotive feature on a vehicle includes a lever configured to be manually moved relative to the vehicle from a first, neutral position to a second, non-neutral position to actuate the automotive feature. The cancellation device also includes a detent pawl coupled to the lever such that the detent pawl moves with the lever, a detent spring configured to bias the detent pawl, a centering spring configured to bias the lever back to the first, neutral position, and a magnet configured to generate a force to hold the lever in the second, non-neutral position.

A vehicle display system provided to a vehicle, includes a first display device, a second display device, and a display control unit. The first display device is configured to emit a light pattern toward a road surface outside the vehicle. The second display device is located inside the vehicle and configured to display predetermined information toward a passenger in the vehicle so that the predetermined information is superimposed on a real space outside the vehicle. The display control unit is configured to control the first display device. The display control unit is configured to control emission of the light pattern according to a passenger's input operation on a display area where the predetermined information can be displayed.

A vehicle headlight system that can he used together with a vehicle control unit (3) that switches from an autonomous driving mode to a manual driving mode on the basis of external information about a vehicle (1), wherein the system has a headlight (100) mounted on the vehicle (1), and a lamp control unit (4) that controls the headlight (100), the lamp control unit (4): controlling the headlight (100) so as to form a first light distribution pattern (P) when the vehicle control unit (3) is executing the autonomous driving mode; controlling the headlight (100) so as to form a second light distribution pattern (Q) when the vehicle control unit (3) is executing the manual driving mode; and controlling the headlight so as to form a third light distribution pattern (R) that irradiates at an illuminance equal to or greater than the illuminance of the first light distribution pattern (P) and/or irradiates a range equal to or greater than the irradiation region of the first light distribution pattern (P), when transitioning from the autonomous driving mode to the manual driving mode.

A motor vehicle includes headlamps having a plurality of LED light sources, one or more processors, and a memory storing instructions. One or more processors executing the instructions are enabled to receive first data, including at least map data, indicating a road curvature upcoming along a road on which the motor vehicle is traveling. The processors are also enabled to determine a light change, the change adapting a light pattern of the headlamps in at least one of color, intensity or spatial distribution to increase light in a direction of the road curvature ahead of the motor vehicle and shaping light based at least in part on the road curvature. The processors are further enabled to control at least a first plurality of the LED light sources to provide light based at least in part on the determined light change and prior to the motor vehicle reaching the road curvature.

A remotely controllable headlight assembly for use on a vehicle, the assembly comprising a circuit board including a plurality of LEDs including at least a first low beam LED, a first high beam LED and at least one additional LED, optic elements supported adjacent the LEDs on the circuit board, a processor and a remote communication module coupled to the processor, the remote communication module configured to receive commands from a wireless device, wherein the commands instruct the processor to illuminate the at least one additional LED, wherein the processor controls the at least one additional LED based on the received wireless commands.

A method and a device for adjusting a light distribution of a vehicle headlight having a control unit for adjusting the light distribution. The headlight includes a number of light sources. The control unit includes an interface configured for receiving user-specified parameters for adjusting and/or modifying an illuminance distribution within the light distribution.