An adaptive beam scanning headlamp for a vehicle includes a plurality of light sources arranged linearly, with each of the plurality of light sources having a linear array of LEDs. A plurality of primary projection lenses shape light from the plurality of light sources. An oscillating mirror obliquely angled between the plurality of primary projection lenses and a secondary projection lens receives light from the plurality of primary projection lenses and redirects the light to the secondary projection lens. The secondary projection lens is adapted to further shape the light for projecting a beam pattern from the vehicle. A controller is adapted for controlling each of the plurality of light sources and the oscillating mirror to actively dim or turn off portions of the beam pattern for reducing glare perceived outside the vehicle.

An adaptive beam scanning headlamp for a vehicle includes a plurality of light sources arranged linearly, with each of the plurality of light sources having a linear array of LEDs. A plurality of primary projection lenses shape light from the plurality of light sources. An oscillating mirror obliquely angled between the plurality of primary projection lenses and a secondary projection lens receives light from the plurality of primary projection lenses and redirects the light to the secondary projection lens. The secondary projection lens is adapted to further shape the light for projecting a beam pattern from the vehicle. A controller is adapted for controlling each of the plurality of light sources and the oscillating mirror to actively dim or turn off portions of the beam pattern for reducing glare perceived outside the vehicle.

An adaptive driving beam headlamp includes a plurality of light-emitting diodes (LEDs) aligned in a first direction. One or more projection lenses having a toric-shape are adapted for shaping light emitted from the plurality of LEDs along the first direction. A beam shaping optic is adapted to shape light emitted from the one or more projection lenses along a second direction, different from the first direction, such that a desired beam shaping pattern is produced by the beam shaping optic in combination with the one or more projection lenses. A controller is adapted for independently controlling each of the plurality of LEDs for adaptively dimming portions of a vehicle headlamp beam of light.

An adaptive driving beam headlamp includes a plurality of light-emitting diodes (LEDs) aligned in a first direction. One or more projection lenses having a toric-shape are adapted for shaping light emitted from the plurality of LEDs along the first direction. A beam shaping optic is adapted to shape light emitted from the one or more projection lenses along a second direction, different from the first direction, such that a desired beam shaping pattern is produced by the beam shaping optic in combination with the one or more projection lenses. A controller is adapted for independently controlling each of the plurality of LEDs for adaptively dimming portions of a vehicle headlamp beam of light.

A lighting apparatus of an autonomous vehicle including a lamp box disposed in a roof part of a vehicle; one or more front lamp units housed in a front portion of the lamp box and configured to distribute light to a forward area of the vehicle; one or more rear lamp units housed in a rear portion of the lamp box and configured to distribute light to a rearward area of the vehicle; one or more interior lamp units disposed at the bottom of the lamp box, and configured to distribute light to an indoor area of the vehicle; and a control unit configured to control operations of the front lamp unit, the rear lamp unit and the interior lamp unit.

A lighting apparatus of an autonomous vehicle including a lamp box disposed in a roof part of a vehicle; one or more front lamp units housed in a front portion of the lamp box and configured to distribute light to a forward area of the vehicle; one or more rear lamp units housed in a rear portion of the lamp box and configured to distribute light to a rearward area of the vehicle; one or more interior lamp units disposed at the bottom of the lamp box, and configured to distribute light to an indoor area of the vehicle; and a control unit configured to control operations of the front lamp unit, the rear lamp unit and the interior lamp unit.

An apparatus for controlling an intelligent headlamp may include: a capturing unit configured to capture a forward image of a vehicle; a lamp driving unit configured to independently drive LEDs of a headlamp configured as a matrix LED; a storage unit configured to store an initial origin point, a changed origin point and an offset for adjusting the position of the headlamp; and a control unit configured to control the lamp driving unit to turn on the headlamp, detect an origin point from the forward image inputted from the capturing unit, set the offset for adjusting the position of the headlamp by comparing the detected origin point to the initial origin point or the changed origin point stored in the storage unit, and store a changed origin point, newly set based on the detected origin point, and the offset in the storage unit.

An apparatus for controlling an intelligent headlamp may include: a capturing unit configured to capture a forward image of a vehicle; a lamp driving unit configured to independently drive LEDs of a headlamp configured as a matrix LED; a storage unit configured to store an initial origin point, a changed origin point and an offset for adjusting the position of the headlamp; and a control unit configured to control the lamp driving unit to turn on the headlamp, detect an origin point from the forward image inputted from the capturing unit, set the offset for adjusting the position of the headlamp by comparing the detected origin point to the initial origin point or the changed origin point stored in the storage unit, and store a changed origin point, newly set based on the detected origin point, and the offset in the storage unit.

A dual CCT automotive headlight is described herein, comprising: at least one first LED configured to emit light of a first color; at least one second LED configured to emit light of a second color different from the first color; a light mixing device arranged to receive and mix light from the at least one first LED and the at least one second LED and to emit the mixed light. The dual CCT automotive headlight can not only provide homogeneous light of the first color and homogeneous light of the second color, but can also provide homogeneous light of a mixed color.

A steering light device is mounted on left or right sides of a motorcycle having an imaginary middle vertical plane extending horizontally in a front-rear direction. The steering light device includes a light unit and a lens unit. The light unit includes at least one inclined elongate auxiliary light descending inwardly toward the imaginary middle vertical plane. The lens unit includes at least one auxiliary lens cooperating respectively with the main and auxiliary lights to project light for compensating light intensity of a dark area in a road surface located in front of the motorcycle when steering the motorcycle to a corresponding one of the left or right.