A system including a light source that provides visual indications to a user of a reserved multiple-passenger vehicle. The light source operates when the user comes within a predetermined distance from the vehicle to thereby identify the vehicle as the one that was reserved by the user. The light source emits light that also specifies a predetermined seat, from among the plurality of seats, to be occupied by the user; specifies a predetermined door from among a plurality of doors by which the user should enter the vehicle to reach the predetermined seat; and specifies a predetermined path, among a plurality of paths by which the user is to travel from the exterior of the vehicle or from the predetermined door, to the predetermined seat.

A vehicular illumination system includes a ground illumination module disposed at a side door of a vehicle. The ground illumination module includes a reconfigurable display element and at least one light source operable to emit light. When the at least one light source is electrically powered, light emitted by the at least one light source illuminates a ground region adjacent the vehicle. When the at least one light source is electrically powered, light emitted by the at least one light source passes through the reconfigurable display element and the ground illumination module projects an icon established by the reconfigurable display element onto the ground region. The reconfigurable display element is reconfigurable to form the icon responsive to programming of the reconfigurable display element for an icon.

A vehicular exterior lighting system includes a lighting module disposed at a side of a vehicle. The lighting module includes at least one light emitting diode. The lighting module is operable to emit light that is viewable by a person exterior the side of the vehicle who is viewing the side of the vehicle. The lighting module emits white light responsive to a signal from a remote device to provide ground illumination of a ground region at the side of the vehicle at which the lighting module is disposed, and the lighting module (i) emits a first color of light responsive to a door lock signal and (ii) emits a second color of light responsive to a door unlock signal. The first color of light is different than the second color of light.

Aspects of the present disclosure involve projecting an interactive scene onto a surface from a projecting object. In one particular embodiment, the interactive scene is projected from a vehicle and may be utilized by the vehicle to provide a scene or image that a user may interact with through various gestures detected by the system. In addition, the interactive scene may be customized to one or more preferences determined by the system, such as user preferences, system preferences, or preferences obtained through feedback from similar systems. Based on one or more user inputs (such as user gestures received at the system), the projected scene may be altered or new scenes may be projected. In addition, control over some aspects of the vehicle (such as unlocking of doors, starting of the motor, etc.) may be controlled through the interactive scene and the detected gestures of the users.

An apparatus for implementing a plurality of functions using a micro lens array may include a light source for generating light, a collimator that forms the light from the light source as straight light and emits the straight light, a road surface pattern array that outputs a road surface pattern indicating a travel direction of a vehicle on a road surface while the light emitted from the collimator passes, and a turn indicating array disposed spaced apart from the road surface pattern array in one direction, and outputting a signal indicating the travel direction of the vehicle while the light emitted from the collimator passes.

A vehicle includes a puddle lamp control system configured to control a puddle lamp to display vehicle identification information, passenger information, advertisements, company logos, and other information on a ground surface proximate to the vehicle. The puddle lamp control system may communicate with a central server using high-speed wireless communication protocols such as Wi-Fi, Wi-max, or other protocols to select images and animations based on vehicle location and pedestrian activity nearby the vehicle. The system may also activate the vehicle puddle lamps based on vehicle sensor triggers associated with vehicle location, based on population and pedestrian density indicative of potential message viewers indicating when pedestrians are close enough to the vehicle to view the advertisement, and based on ridehail activity such as ridehail user information, and seat assignments. The messages and images may be customized using an interface device onboard the vehicle.

A vehicle perimeter lighting assembly includes, among other things, a base having a concave area and a support ledge, a light source supported on the support ledge such that light from the light source is emitted toward the concave area, and a reflector lining the concave area. The reflector is configured to redirect light emitted from the light source toward an area around a vehicle.

A vehicular exterior rearview mirror assembly includes a ground illumination module or turn signal indicator that includes at least one light source operable to emit light when electrically powered. A near field communication device communicates utilizing a near field communication (NFC) standard. Responsive to a near field communication-enabled device being present exterior the vehicle, the near field communication device wirelessly receives a communication from the near field communication-enabled device and determines whether the near field communication-enabled device is an authorized device. Responsive to determining that the near field communication-enabled device is an authorized device, the near field communication device authenticates the near field communication-enabled device as an authorized device for communication with the near field communication device. When the near field communication-enabled device is within a threshold distance to the vehicle, the at least one light source is electrically powered.

A hybrid vehicle lamp includes a functional surface and a functional marking integrated within the functional surface. A housing has a plurality of mounting locations configured to respectively align a plurality of light sources configured to illuminate the functional marking or the functional surface, or both, in a lit mode. A controller is configured to individually control each of the plurality of light sources for providing different illumination patterns of the functional marking and the functional surface such that such that automotive functional lighting and non-automotive functional lighting is provided.

When information regarding a situation inside and outside a vehicle is determined to match a display change condition, a control unit (32) changes a display mode of information displayed outside the vehicle by controlling a projector device (4a) or a body light device (4b).