Provided is a drive assist apparatus visually notifying a driver of information regarding a gradient of a road. A drive assist apparatus includes processing circuitry. The processing circuitry is to acquire gradient information of a road in which gradient illusion is estimated to occur in a driver of a vehicle. The processing circuitry is to perform control on an irradiation apparatus provided to the vehicle so that the irradiation apparatus projects a gradient recognition pattern on a target object or on a projection surface provided in front of a driver seat of the vehicle to display the gradient recognition pattern in overlapped fashion with the target object. The target object is located in front of the vehicle and extends along the road. The gradient recognition pattern includes at least one graphic based on the gradient information of the road and disposed along the extension direction of the target object.

Method for controlling a lighting system with the lighting system including a plurality of light sources, wherein each light source is capable of emitting an elementary light beam with the vertical angular aperture of which is less than 1. The method includes detecting a target object, determining a relative distance between a given point of the host vehicle sensor system and a detected point of the target object and determining a gradient of the road on which the target object is located, determining a lower angle and an upper angle between a given point of the host vehicle lighting system and a high cut-off point and a low cut-off point, controlling the light sources of the host vehicle lighting system in order to emit a pixelated light beam of the driving beam type in order to generate a dark zone extending substantially between the high and low cut-off points.

A lighting system and method of operating the same for a vehicle having a vehicle structure includes a plurality of primary low beam elements and a plurality of secondary low beam elements. The system further includes a primary high beam element and a secondary high beam element. A lean angle sensor is coupled to the vehicle structure. A controller is coupled to the lean angle sensor controlling the primary low beam elements, the secondary low beam element and the secondary high beam element in response to the lean angle.

A lighting system and method of operating the same for a vehicle having a vehicle structure includes a plurality of primary low beam elements and a plurality of secondary low beam elements. The system further includes a primary high beam element and a secondary high beam element. A lean angle sensor is coupled to the vehicle structure. A controller is coupled to the lean angle sensor controlling the primary low beam elements, the secondary low beam element and the secondary high beam element in response to the lean angle.

An adaptive light beam unit attachable to a vehicle including: At least one light engine assembly, wherein the at least one light engine assembly includes at least one light engine, the at least one light engine includes at least one light source and at least one reflector adapted to reflect light emitted from the at least one light source to form a light beam; At least one sensor for measuring angle of rotation of the vehicle; At least one motor connected to the at least one light engine assembly for changing a projection angle of the light beam; At least one controller operatively connected to the least one light engine assembly and the at least one sensor, whereby the at least one controller receives information on the angle of rotation of the vehicle, and drives the at least one electrical motor to maintain or alter the projection angle of the light beam such that a desired lighting positioning is obtained based on a pre-determined scenario.

An adaptive light beam unit attachable to a vehicle including: At least one light engine assembly, wherein the at least one light engine assembly includes at least one light engine, the at least one light engine includes at least one light source and at least one reflector adapted to reflect light emitted from the at least one light source to form a light beam; At least one sensor for measuring angle of rotation of the vehicle; At least one motor connected to the at least one light engine assembly for changing a projection angle of the light beam; At least one controller operatively connected to the least one light engine assembly and the at least one sensor, whereby the at least one controller receives information on the angle of rotation of the vehicle, and drives the at least one electrical motor to maintain or alter the projection angle of the light beam such that a desired lighting positioning is obtained based on a pre-determined scenario.

A vehicle headlight (1) is equipped with: a light source unit (10) for forming a light distribution pattern which can be changed by light beams emitted from a light source group (130); and a control unit (CO). In a case where a detection signal of another vehicle present in front of an ego-vehicle (100) is inputted from a detection unit (29) for detecting the other vehicle, the control unit (CO) causes first light sources of the light source group (130), which emit light toward a first region (AR1) including a region overlapping a visual recognition part of the other vehicle used by a driver thereof to visually recognize the outside of the other vehicle, to emit light having a lower intensity than in a case where no detection signal is inputted, and causes second light sources, among second light sources of the light source group (130) that emit light toward a second region (AR2) surrounding the first region (AR1), which emit light toward a lower-side region (BA1) lower than the first region (AR1), to emit light with an increasingly lower intensity toward the side closer to the first region (AR1).

A vehicle headlight (1) is equipped with: a light source unit (10) for forming a light distribution pattern which can be changed by light beams emitted from a light source group (130); and a control unit (CO). In a case where a detection signal of another vehicle present in front of an ego-vehicle (100) is inputted from a detection unit (29) for detecting the other vehicle, the control unit (CO) causes first light sources of the light source group (130), which emit light toward a first region (AR1) including a region overlapping a visual recognition part of the other vehicle used by a driver thereof to visually recognize the outside of the other vehicle, to emit light having a lower intensity than in a case where no detection signal is inputted, and causes second light sources, among second light sources of the light source group (130) that emit light toward a second region (AR2) surrounding the first region (AR1), which emit light toward a lower-side region (BA1) lower than the first region (AR1), to emit light with an increasingly lower intensity toward the side closer to the first region (AR1).

A headlight for vehicles, in particular trucks, comprising a lighting unit which is pivotably mounted about a pivot axis; a linear drive unit which contains a linearly movable actuator; and a pivoting lever which is coupled to a lighting unit at a first end and to the actuator at a second end, wherein the lighting unit is pivotable by means of the actuator. The pivoting lever is designed in multiple parts, comprising a lower pivoting lever element having a support part for supporting on the actuator and an upper pivoting lever element on which a horizontal axis is arranged, the pivoting lever being pivotably mounted about said axis.

A headlight for vehicles, in particular trucks, comprising a lighting unit which is pivotably mounted about a pivot axis; a linear drive unit which contains a linearly movable actuator; and a pivoting lever which is coupled to a lighting unit at a first end and to the actuator at a second end, wherein the lighting unit is pivotable by means of the actuator. The pivoting lever is designed in multiple parts, comprising a lower pivoting lever element having a support part for supporting on the actuator and an upper pivoting lever element on which a horizontal axis is arranged, the pivoting lever being pivotably mounted about said axis.