An electronic device for a vehicle includes a power supply configured to supply power, an interface configured to receive high definition (HD) map data of a specified region from a server through a communication device, and at least one processor configured to continuously generate electronic horizon data of the specified region based on the HD map data in a state in which the power is received, and to set a light irradiation region of a head lamp based on the electronic horizon data.

An electrical device controller includes a processor, and a memory for storing a program executed by the processor. The processor controls the electrical device in multiple operation modes including an automatic mode which automatically changes the operation state of the electrical device and a stop mode which stops the electrical device, controls the electrical device in an operation mode specified with an operating member operated by an occupant when the vehicle is manually driven, controls the operation state of the electrical device in the automatic mode regardless of the operation mode specified with the operating member when the vehicle is autonomously driven, and sets the operation mode of the electrical device at least temporarily to the stop mode when the operation mode specified with the operation member is switched to the stop mode from an operation mode other than the stop mode, when the vehicle is autonomously driven.

An electrical device controller includes a processor, and a memory for storing a program executed by the processor. The processor controls the electrical device in multiple operation modes including an automatic mode which automatically changes the operation state of the electrical device and a stop mode which stops the electrical device, controls the electrical device in an operation mode specified with an operating member operated by an occupant when the vehicle is manually driven, controls the operation state of the electrical device in the automatic mode regardless of the operation mode specified with the operating member when the vehicle is autonomously driven, and sets the operation mode of the electrical device at least temporarily to the stop mode when the operation mode specified with the operation member is switched to the stop mode from an operation mode other than the stop mode, when the vehicle is autonomously driven.

Because of the nature of autonomous vehicles, and in particular that they do not require manual inputs from a driver or passenger to control braking and steering, autonomous vehicle can include features that may not necessarily be useful or practical in a typical non-autonomous (or semi-autonomous vehicle) that would require such manual input.

Because of the nature of autonomous vehicles, and in particular that they do not require manual inputs from a driver or passenger to control braking and steering, autonomous vehicle can include features that may not necessarily be useful or practical in a typical non-autonomous (or semi-autonomous vehicle) that would require such manual input.

A vehicle headlamp assembly, a reflector for the headlamp assembly, and a method for generating a supplementary beam using the reflector are provided. The vehicle headlamp assembly includes a light source and a reflector. The reflector includes a plurality of facets. Each facet of the plurality of facets is configured to contribute to a section of a beam pattern of a light beam of the headlamp assembly by reflecting light emitted by the light source.

A vehicle headlamp assembly, a reflector for the headlamp assembly, and a method for generating a supplementary beam using the reflector are provided. The vehicle headlamp assembly includes a light source and a reflector. The reflector includes a plurality of facets. Each facet of the plurality of facets is configured to contribute to a section of a beam pattern of a light beam of the headlamp assembly by reflecting light emitted by the light source.

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.

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 luminous motor-vehicle system including an optical module and aims to compensate for undesirable movement or deformation effects caused by the manufacturing tolerances of the optical portion. The module includes an imaging device provided with a pixelated spatial modulator, which is illuminated by a source, and a projecting optic. A control unit for controlling the modulator receives first display commands that are representative of an image to be projected. This unit converts each first display command into a second display command taking into account correction parameters, which are predefined on the basis of an identification of geometric defects specific to the projecting optic. The control unit controls the modulator, which may be a digital micromirror device, depending on the second display commands in order that the image actually projected by the imaging device corresponds to the image to be projected.