A method for aiding the maneuvering of an automotive vehicle. The method includes the steps of projecting a light pattern towards a projection zone of the ground surface, acquiring an image of the automotive vehicle and the light pattern from an image sensor and providing the acquired image to a user of the automotive vehicle. The projection zone includes at least one of a first virtual rectangle, a second virtual rectangle and/or a third virtual rectangle, defined with respect to a rear point of the carbody, a front point of the carbody and the contact points between the wheels and the ground surface. The invention also provides an automotive lighting device for performing the steps of such a method.

A system includes a camera aimed externally to a vehicle, a window of the vehicle, a projector positioned to project on the window, and a computer communicatively coupled to the camera and the projector. The computer is programmed to, upon receiving data from the camera indicating a first person outside the vehicle, instruct the projector to project an image on the window depicting a second person inside the vehicle.

A system includes a camera aimed externally to a vehicle, a window of the vehicle, a projector positioned to project on the window, and a computer communicatively coupled to the camera and the projector. The computer is programmed to, upon receiving data from the camera indicating a first person outside the vehicle, instruct the projector to project an image on the window depicting a second person inside the vehicle.

A method for driving a vehicle on an opposite lane in a controlled manner includes detecting, with a surroundings sensor system, surroundings of the vehicle and receiving, with a control device, measurement data of the surroundings sensor system. The method includes identifying at least one course of a road, and at least one course of at least one road user in the surroundings based on the received measurement data and planning a trajectory of the vehicle within the at least one course of a road. The method further includes identifying a section of the road wherein when driving on the section of road the opposite lane is cut across by the vehicle, and determining a first stop position for the vehicle prior to entering the identified section of road. The method then checks whether the opposite lane can be driven on in the identified section.

A motor vehicle includes an environment illuminating device for emitting light toward the ground in the environment of the motor vehicle. The environment illuminating device includes one or more luminous modules, each of which is configured to generate a light distribution on the ground. A respective luminous module includes an image generator configured to generate light radiation from light from an illuminant, the light radiation containing two-dimensional image information concerning, firstly, a symbol representation and, secondly, a light pattern and/or a homogeneous area with a substantially constant luminance. Furthermore, the respective luminous module includes an optical device, on which the light radiation from the image generator is incident.

A terrain viewing apparatus is provided to enable greater viewability of environmental conditions around a vehicle. A housing of the terrain viewing apparatus may include a lighting apparatus for emitting light and illuminating environmental conditions during nighttime, dusk, or adverse weather conditions. The housing may further include a reflecting apparatus to increase an operator's ability to view environmental conditions outside the vehicle. One or more joints may enable the housing to be adjustable with respect to the vehicle. An internal joint may enable the reflecting apparatus to be adjustable with respect to the housing. The lighting apparatus may receive power from the vehicle. The lighting and reflecting apparatuses may be electrically coupled to the vehicle and may be controllable therefrom.

A small-sized vehicle-mounted projector light system including an illuminating module having a light source, a collimating lens and a film arranged in sequence, and an imaging module; the imaging module includes a curved reflector being a concave mirror with positive focal power, and a first imaging lens. The main optical axis of the illuminating module passes through the reflective surface of the curved reflector, on one side of which the first imaging lens is positioned. The invention ensures an appropriate size of an one-way dimension, no consequence of the limited space within automobile structure during installation and design, and conveniency for arrangement; the curved reflector has positive focal power and can perfect focusing, not only ensuring good projection effect, but also decreasing the number of lenses with positive focal power in the system, and effectively reduce the volume and weight of the system.

Lighting unit that can be mounted to a vehicle for illuminating work or emergency areas at night. The lighting unit includes a mechanically controllable driver for selecting a position of a central optical axis of the light emitter and an electronically adjustable refractive element for modulating a beam spread configuration generated by the lighting unit.

The present technology relates to a vehicle that enables to improve designability while avoiding deterioration of safety and functionality of the vehicle.

The vehicle includes: a front line extending in a vehicle width direction on a front surface of a body; and a headlight arranged on left and right of the front surface, divided vertically by the front line, and configured to output a low beam from a portion above the front line and output a high beam from a portion below the front line. The present technology can be applied to, for example, a vehicle.

A refuse vehicle includes a chassis, a vehicle body supported by the chassis, a lift assembly, and a projector. The vehicle body defines a receptacle for storing refuse. The lift assembly is configured to selectively engage a waste container. The lift assembly is movable between a first position and a second position. The projector is positioned to emit light outwardly away from the refuse vehicle and proximate the lift assembly to define a target area.