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.

The invention is directed to methods and devices to improve light patterns used to inform or assist an observer or a driver. The invention is related to an illuminating device and to a method for projecting a pre-definable light pattern using the illuminating device of the vehicle into an area surrounding the vehicle. According to the invention, a projection surface is determined in the area surrounding the vehicle, a position of a predefined observer has been determined or provided, and a light unit of the illuminating device is controlled pixel-wise according to the determined projection surface and the determined position of the predefined observer in order to produce the pre-definable light pattern.

The present invention relates to a work lighting (100) for a machine (200) for generating an adaptive working illumination, comprising a plurality of lighting means (10) arranged in the form of a light-emitting matrix (20) to generate the working illumination, and at least one central adjusting unit (60, 70, 80) for separately adjusting the working illumination of the individual lighting means (10) in the light-emitting matrix. The invention further relates to a machine (200) having a work lighting (100) according to the invention.

The present invention relates to a method for protecting a user of a light system (100), which comprises multiple illuminants (L1-L6), at least one light sensor (30) and at least one coding unit (40), from dazzling light from at least one of the illuminants (L1-L6), comprising the following steps: creating of a respective coding for light (M1-M6) of the individual illuminants (L1-L6) by the at least one coding unit (40), detecting of dazzling light (M2X) from at least one of the illuminants (L1-L6) by the at least one light sensor (30), assigning of the detected dazzling light (M2X) with the at least one associated illuminant (L2) on the basis of the coding of the light for the corresponding illuminant (L2), and setting of the at least one associated illuminant (L2) to protect the user from the detected dazzling light (M2X). The invention furthermore relates to a light system (100) and a machine (200) having the light system (100) for carrying out a method according to the invention.

A headlight system includes a headlight module having at least one headlight device arranged on a vehicle and having a predefined illuminating range; a driving module having at least one driving unit configured to adjust the illuminating direction of the headlight device within the predefined illuminating range; a gaze detecting device detecting a driver's gaze direction; an input device receiving a direction adjusting command issued by the driver; and a control unit electrically connected to the driving module, the gaze detecting device and the input device, wherein when the input device receives the direction adjusting command from the driver, and the control unit determines whether the drivers' gaze direction falls within the predefined illuminating range; if so, the control unit controls the driving unit to adjust the illuminating direction of the headlight device toward the driver's gaze direction.

A lighting device is provided for controlling the photometric distribution of light emitted by two or more LEDs. The lighting device may be integrated with a control system of the vehicle and may be controlled by a remote controller. The lighting device may be capable of being operated in one or more modes of operation based on operating conditions, user input, or both. Operating conditions may include vehicle conditions, environmental conditions, and user conditions. The controller may operate a software application to enable the user to modify, control, or otherwise regulate any mode of operation or other feature of the lighting system.

This display system which is provided in a vehicle comprises: a road surface drawing device that is configured so as to emit a light pattern (L1) toward a road surface outside the vehicle; an HUD that is located inside the vehicle and configured so as to display HUD information to an occupant of the vehicle such that the HUD information is overlaid on real space outside the vehicle; and a display control unit that is configured so as to control the road surface drawing device. The display control unit is configured so as to control the emission of the light pattern (L1) in accordance with an input operation by the occupant in an HUD display area (D1) where the HUD information can be displayed.

A vehicle for travelling on a roadway with a driver has a driver monitor, a head lamp system, and a controller. The driver monitor senses a driver gaze angle relative to a vehicle heading along the roadway and senses a driver head angle relative to the vehicle heading. The a headlamp system has a steerable headlamp configured to illuminate the roadway with a light beam along a selectable projection angle. The controller is configured to compare the driver gaze angle to a first threshold angle, determine a difference between the driver gaze angle and the driver head angle, and when the driver gaze angle is greater than the first threshold angle and the difference is less than a second threshold angle, then adjust the projection angle to a target angle based on the driver gaze angle.

A control device for a vehicle headlight includes a motion information acquisition part that acquires information of a motion of at least a part of a driver in the vehicle, an attribute decision part that determines attribute of the driver based on the information acquired by the motion information acquisition part, and a light distribution controller that controls a light distribution of the vehicle headlight based on the attribute determined by the attribute decision part.

Embodiments describing an approach to receiving visual feedback. Generating a recommended visual pattern based on the visual feedback. Tracking a driver's real-time visual pattern. Extracting the driver's real-time visual patterns from the eye-tracking data. Determining the differences between the recommended visual pattern and the driver's real-time visual pattern. Generating enhanced headlamp control configurations based on the determined differences between the recommended visual pattern and the driver's real-time visual pattern; and adjusting the headlamp calibration controls based on the enhanced headlamp control configuration.