A variable beam pattern lamp system for a driver provides an input device that receives personal information of the driver, a lamp driving device that drives an indoor or outdoor lamp of a vehicle to output a beam pattern matched to the driver, based on the personal information of the driver, the personal information being input through the input device, and a vehicle controller that determines whether the personal information is registered driver information or unregistered driver information, when the personal information of the driver is input through the input device, and controls the lamp driving device to drive the indoor or outdoor lamp of the vehicle using beam patterns respectively corresponding to that the personal information is the registered driver information and that the personal information is the unregistered driver information.

A motor vehicle includes headlamps having a plurality of LED light sources, one or more processors, and a memory storing instructions. One or more processors executing the instructions are enabled to receive first data, including at least map data, indicating a road curvature upcoming along a road on which the motor vehicle is traveling. The processors are also enabled to determine a light change, the change adapting a light pattern of the headlamps in at least one of color, intensity or spatial distribution to increase light in a direction of the road curvature ahead of the motor vehicle and shaping light based at least in part on the road curvature. The processors are further enabled to control at least a first plurality of the LED light sources to provide light based at least in part on the determined light change and prior to the motor vehicle reaching the road curvature.

A system for a vehicle includes one or more processors, one or more memory modules, and machine readable instructions stored in the one or more memory modules. The machine readable instructions, when executed by the one or more processors, cause the system to: receive one or more images from one or more imaging sensors in the vehicle; identify a first object in a rear seat of the vehicle based on the one or more images; identify a second object attached to the first object based on the one or more images; determine whether the second object is in a set of objects; and output an alert in response to determining that the second object is in the set of objects.

A disclosed light activation system includes a movable lighting element movable to adjust a direction of light, an actuator for moving the movable lighting element, a driver detection device and a controller configured to command operation of the actuator for moving the movable lighting element based on a detected direction of sight of the driver. A disclosed method of operating a vehicle lighting system includes monitoring a direction that a driver of a motor vehicle is looking, determining a lighting element within a region corresponding with the direction the driver is looking, and actuating a lighting element within the region based in response to the determined direction that the driver is looking and in response to a secondary condition being fulfilled.

An automated headlight system for vehicles replaces the high and low beam with a continuum of beam patterns, with further variable spatial distribution of intensities and color spectrum. The digital-headlight is comprised of a controller, sensors and multiple, individually-controllable light-sources modified by optical-control elements to form narrow-beams which are then combined to create the overall headlamp beam. Utilizing real-time sensor data regarding beings, objects and vehicles in the way-ahead, as well as optional information on the driver, vehicle and environment, the logical controller dynamically adapts the headlight system's illumination so as to provide vehicle operators with optimal visibility while preventing discomfort-glare from reaching the eyes oncoming traffic or pedestrians.

A method is provided for assisting a driver of a motor vehicle in a traffic situation with regard to objects relevant to the traffic situation. The motor vehicle has at least one environment sensor directed towards the forefield of the motor vehicle, at least one driver sensor designed to detect the line of sight and fixation of the driver's eyes, and at least one headlight having a controllably variable spatial illumination pattern. The method includes detecting, classifying, and locating objects in the forefield of the motor vehicle to determine a first object list having the object data associated with the detected objects. The method also includes determining objects, which were detected and not detected by the driver, in order to generate a second object list of undetected objects. The method also includes illuminating the at least one illuminated object in a targeted manner using the at least one headlight to notify the driver about the illuminated object.

This disclosure relates to a method for assisting a user of a motor vehicle when swerving around an obstacle on a movement path of the motor vehicle. A driver assistance device carries out the following: providing a warning signal which describes an object on the movement path and a collision area which is visible through a window, preferably a vehicle window of the motor vehicle and in which the object is located; defining a swerving area visible through the vehicle window, in which a swerving point for travelling around the object is visible, generating an accentuation signal, which describes a measure for accentuating the swerving area, and transmitting the accentuation signal to an accentuation device. Depending on the accentuation signal, the measure for accentuating the swerving area is carried out. The accentuation device can, for example, control a heads-up display and/or a monitor integrated into the vehicle window and/or a headlight.

A vehicular adaptive driving beam headlighting system includes a camera disposed at and viewing forwardly through a windshield of a vehicle. A control includes an image processor that processes image data captured by the camera at night to detect headlights present in a field of view of the camera of an oncoming vehicle that is approaching the equipped vehicle along a traffic lane to the left of a traffic lane of a road that the equipped vehicle is travelling along. A left-side headlamp is disposed at a left-side front portion of the equipped vehicle and a right-side headlamp is disposed at a right-side front portion of the equipped vehicle. Responsive to detection of headlights of an oncoming vehicle, the left-side headlamp beam of light is adjusted to reduce glaring a driver of the oncoming vehicle.

A lamp, for a vehicle, that includes at least one light source configured to generate light; a transparent display configured to allow at least a portion of the light to pass through the transparent display; and a processor configured to control the transparent display to display, on a projection surface using the light, information related to the vehicle or driving conditions for the vehicle is disclosed.

A procedure is provided for actuating at least one main headlamp of a vehicle. The vehicle includes a detection device, and a light control for the automatic actuation of the main headlamp. The main headlamp illuminates an outer area of the area ahead of the vehicle in a first light intensity, and a core area of the area ahead of the vehicle at least partially enclosed by the outer area with a higher second light intensity. The core area is adjusted by the light control in terms of dimension and/or position. In order to improve the visual perceptibility to a vehicle driver of the area ahead of the vehicle, the core area is adjusted in relation to the outer area, and the outer area is adjusted by the light control in such a way depending on the input signal of the light control in terms of dimension and/or position that the vehicle's road and peripheral surroundings) bordering the road in the area ahead of the vehicle are illuminated by the outer area.