A vehicle control device includes a plurality of lamps provided on a vehicle; a sensing unit configured to sense information related to the vehicle; and at least one processor. The at least one processor is configured to, based on a determination, through the sensing unit, that at least a portion of the vehicle has entered a first area that is adjacent to an available parking space, activate, in a first illumination mode, at least one lamp among the plurality of lamps that has entered the first area that is adjacent to the available parking space.

A vehicle lighting system includes: a lighting device that emits a first light and a second light to a periphery of an own vehicle, the second light having a higher directivity than the first light; a camera to acquire image information; a detector to emit an electromagnetic wave and acquire a reflection wave; and an electronic control unit configured to detect a physical body using the image information, detect the physical body using information of the reflection wave, control the lighting device such that the first light is emitted to the physical body detected by the reflection wave, determine whether the physical body detected using the image information in a state where the first light is being emitted is an target object, and control the lighting device such that the lighting device emits the second light toward a predetermined range around the target object.

A method and a device for the automated adaptation of a brightness of at least one light for a vehicle. The method includes a step of determining a position and/or a moving direction of the vehicle relative to a first and/or second national territory; a step of ascertaining data that represent a brightness requirement for the at least one light as a function of the position and/or moving direction of the vehicle; and a step of the automated adaptation of the brightness of at least one light as a function of the ascertained data.

A vehicle system includes an information processing device and a vehicle. The vehicle includes: a detection unit configured to detect an illuminance change; an acquisition unit configured to acquire position information; a first sending unit configured to send, to the information processing device, (i) illuminance change position information and (ii) traveling information; a first receiving unit configured to receive a turn-on condition from the information processing device; and a turn-on unit configured to turn on a headlight according to the traveling information and the turn-on condition. The information processing device includes a learning unit configured to learn, as the turn-on condition, traveling content of the vehicle before the vehicle reaches the position where the illuminance change is detected, by using the travelling information, and a second sending unit configured to send the turn-on condition to the vehicle.

Systems, methods, tangible non-transitory computer-readable media, and devices for operating an autonomous vehicle are provided. For example, a method can include receiving sensor data based at least in part on sensor outputs from sensors of an autonomous vehicle. The sensor outputs can be based at least in part on a state of the autonomous vehicle and an environment including one or more objects. A plurality of spatial relations can be determined based on the sensor data. The plurality of spatial relations can include the position of the autonomous vehicle with respect to the one or more objects. A headlight configuration for headlights of the autonomous vehicle can be determined, based on the plurality of spatial relations. The headlight configuration can specify headlight states for each of the headlights. A set of the one or more headlights can be activated, based on the headlight configuration.

There is provided a lighting device arranged to produce a controllable light beam for illuminating a scene. The device comprises an addressable spatial light modulator arranged to provide a selectable phase delay distribution to a beam of incident light. The device further comprises Fourier optics arranged to receive phase-modulated light from the spatial light modulator and form a light distribution. The device further comprises projection optics arranged to project the light distribution to form a pattern of illumination as said controllable light beam.

A headlamp assembly for illuminating surroundings of a vehicle, including at least one headlamp, a temperature sensor, and a control device. The at least one headlamp comprising a multiplicity of light sources, the multiplicity of light sources (being divided into a first group and at least one second group. The temperature sensor being configured to detect a temperature in the at least one headlamp. The light sources of the multiplicity of light sources being thermally coupled. The control device being configured to ascertain a current temperature ascertained by the temperature sensor in the at least one headlamp and, in the case that the current temperature in the at least one headlamp exceeds a predefined temperature threshold value, to select the first group or the at least one second group for a power reduction, depending on an operating situation of the vehicle and to reduce the power of the selected group.

A headlight control system controls a headlight of a moving object. The moving object includes the headlight including a plurality of light emission units, and an imaging unit configured to capture images of circumstances in front. The headlight control system includes an irradiation pattern controller configured to perform control for changing at least one of presence or absence of light emission and a degree of light emission of each of the light emission units to change an irradiation pattern of the headlight to one of a plurality of irradiation patterns, an imaging controller configured to perform control such that the imaging unit captures the images of the circumstances in front for each of the irradiation patterns to acquire captured images, and a learning unit configured to learn an irradiation pattern suitable for the circumstances in front based on captured images captured for each of the irradiation patterns.

A headlight control apparatus that controls an illumination state of a headlight that illuminates an area ahead of a vehicle includes an illuminance sensor that detects luminance around the vehicle, an illumination control section that switches on or off the headlight in accordance with the luminance detected by the illuminance sensor, a forward detection sensor that detects an object that is present within a predetermined distance ahead of the vehicle, and a dimming control section that dims the headlight when the forward detection sensor detects an object after start of the vehicle.

There is provided a lighting device arranged to produce a controllable light beam for illuminating a scene. The device comprises an addressable spatial light modulator arranged to provide a selectable phase delay distribution to a beam of incident light. The device further comprises Fourier optics arranged to receive phase-modulated light from the spatial light modulator and form a light distribution. The device further comprises projection optics arranged to project the light distribution to form a pattern of illumination as said controllable light beam.