A collision avoidance and/or pedestrian detection system for a large passenger vehicle such as commuter bus, which includes one or more exterior and/or interior sensing devices positioned strategically around the exterior and interior of the vehicle for recording data, method for avoiding collisions and/or detecting pedestrians, and features/articles of manufacture for improving same, is described herein in various embodiments. The sensing devices may be responsive to one or more situational sensors, and may be connected to one or more interior and/or exterior warning systems configured to alert a driver inside the vehicle and/or a pedestrian outside the vehicle that a collision may be possible and/or imminent based on a path of the vehicle and/or a position of the pedestrian as detected by one or more sensing devices and/or situational sensors.

A component for a vehicle interior is disclosed; a method for producing the component is also disclosed. The component comprises a base and a cover comprising an exterior surface providing the visible surface and an interior surface; the visible surface at the cover may comprise a display operated by light source/panel configured to present an image at an image presentation area. The image presentation area may comprise a formed image presentation area; the formed image presentation area may comprise at least one formed hole formation segment comprising at least one formed hole formation based on a hole pattern segment for a pattern image area. The image presentation area of the cover may comprise each formed hole formation comprising formed hole formation segments; each formed hole formation may comprise an opening through the cover generally corresponding to a hole of the hole pattern segment. A composite visual effect may be presented at the cover of the component; the external surface of the cover may comprise a surface effect such as by a veneer configured to provide a visual effect; the formed image presentation area is configured to provide a visual effect such as by the image illuminated at the display from the light source/panel. The formed hole formations for the image presentation area of the cover may comprise laser-formed openings formed through the internal surface and external surface of the cover.

A vehicular control system includes a forward viewing camera and an image processor operable to process image data captured by the forward viewing camera. Responsive at least in part to processing of captured image data, a traffic lane of the road along which the equipped vehicle is traveling is determined and another vehicle present on the road along which the equipped vehicle is traveling and forward of the equipped vehicle is detected. Responsive at least in part to processing of captured image data, the vehicular control system determines that the detected other vehicle is travelling in a traffic lane to the left of the determined traffic lane along which the equipped vehicle is traveling. A speed control system controls speed of the equipped vehicle at least in part responsive to (a) processing of captured image data and (b) map data relevant to a current geographic location of the equipped vehicle.

An illumination assembly configured to emit diffuse light through an indicator is disclosed. The assembly comprises a substrate having an applique disposed thereon. The applique forms an opening configured to transmit light through the substrate. The assembly further comprises a light source in connection with a circuit and configured to emit light through the shape. A diffusing layer is applied to a surface of the assembly between the circuit and the substrate. The diffusing layer comprises a resin material configured to cure in response to exposure to ultraviolet light or heat. The diffusing layer further comprises a filler material comprising a plurality of beaded structures configured to diffuse light from the light source.

A vehicular control system includes a forward viewing camera and an image processor operable to process image data captured by the forward viewing camera. Responsive at least in part to processing of captured image data, a traffic lane of the road along which the equipped vehicle is traveling is determined and another vehicle present on the road along which the equipped vehicle is traveling and forward of the equipped vehicle is detected. Responsive at least in part to processing of captured image data, the vehicular control system determines that the detected other vehicle is travelling in a traffic lane to the left of the determined traffic lane along which the equipped vehicle is traveling. A speed control system controls speed of the equipped vehicle at least in part responsive to (a) processing of captured image data and (b) map data relevant to a current geographic location of the equipped vehicle.

A meter assembly for a vehicle instrument panel. The meter assembly includes a reflector case having a plurality of light guides extending from an inner surface of the reflector case. Neighboring ones of the plurality of light guides have different lengths and extend different distances from the inner surface of the reflector case.

An in-vehicle lighting device includes: a panel that has a front surface and a back surface, and has a through-hole penetrating through the front surface and the back surface; a light source disposed on a side of the back surface of the panel; and a button inserted in the through-hole, the button including a front end part protruding from the front surface, an first intermediate part provided continuously with the front end part and located between the front surface and the back surface of the panel, a surface of the first intermediate part containing a material that reflects light emitted from the light source, and a back end part provided continuously with the first intermediate part and protrudes from the back surface.

A smart functional vehicle component includes a vehicle component, a leather sheet fixed over a surface of the vehicle component, a flexible electronic circuit contacting an A-surface of the leather sheet and including a printed and cured conductive ink, a light source that emits light when electrical power is supplied to the light source, the light source being electrically connected to the circuit, and a pigmented coating arranged over the electronic circuit and over the light source. The pigmented coating inhibits or prevents the circuit and the light source form being visible through the pigmented coating. Light emitted by the light source is visible through the pigmented coating. Light emitted by the light source provides visual indicators that convey information to a vehicle occupant.

The present disclosure provides a head-up display that has a first lighting unit to display first information on a windshield. The first lighting unit includes a first lighting source that emits light for the windshield as the first information and a first cylindrical casing that accommodates the first lighting source therein. The head-up display further has a second lighting unit to display second information on the windshield. The second lighting unit includes a second lighting source that emits light for the windshield as the second information. The head-up display further has a package disposed under the windshield. The first and second lighting units are installed on the package. The second lighting unit is installed on the package independently from the first lighting unit.

A vehicle display device includes a display showing surface configured to form a showing area and show driving information in image through a display; a non-display showing surface provided around the display showing surface and configured to form the showing area and switch between showing and non-showing of a notification symbol based on turning-on or turning-off of a back-side light source; and a front-side light source arranged on a side opposite to the back-side light source with the non-display showing surface interposed therebetween, and configured to irradiate the non-display showing surface with light to draw a decorative pattern, regardless of the showing or the non-showing of the notification symbol on the non-display showing surface.