A vehicle interior component is disclosed. The component provides a user interface with a display/image when illuminated. The component comprises a composite structure with a cover material providing a light-transmissive effect and a surface providing a surface effect (grain/wood texture) visible when the display is off. The image is presented at the cover surface when the display is on. The cover may comprise a wood veneer with backing (paper, fiber material, etc.). The composite structure may comprise a mask layer and a lens, filter, colorant, etc. The user interface may include a sensor. The light source may comprise a display panel, LED/array, module, etc. The image is visible at the user interface when display functionality is in operation; when display functionality is not in operation the surface effect of the cover (e.g. wood texture) is visible with substantially no indication of display functionality.

A vehicular control system includes a forward viewing camera disposed at an in-cabin side of a windshield of a vehicle and viewing forward of the vehicle. Road curvature of a road along which the vehicle is traveling is determined responsive at least in part to processing by an image processor of image data captured by the camera. Responsive at least in part to processing of captured image data, a traffic lane of the road along which the vehicle is traveling is determined. Upon approach of the vehicle to a curve in the road, speed of the vehicle is reduced to a reduced speed for traveling around the curve in the road at least in part responsive to at least one selected from the group consisting of (a) processing of image data captured by the forward viewing camera and (b) data relevant to a current geographical location of the equipped vehicle.

A method for providing a user interface for at least one device of a transportation vehicle. A query gesture of a user is detected, and the query gesture is assigned a query direction. The query direction determines an approach value for the device. The approach value is then used to generate a feedback signal which is output, and the device is selected when the approach value exceeds a specific threshold. An operating possibility display for the selected device is generated and output, and the operating possibility display includes information on the operating possibilities for the selected device. An operating gesture of the user is detected, and the detected operating gesture is used to generate a control signal for the selected device, and the control signal is transmitted to the device. Also disclosed is a system for providing a user interface for at least one device of a transportation vehicle.

An operating element for a vehicle interior is integrated in a flexible material and comprises an electroluminescent layer arranged between a first conducting layer and a second conducting layer. The arrangement of the first conducting layer, the second conducting layer and the electroluminescent layer is configured to be operable as a capacitive sensor.

A windshield (window glass for a vehicle) 10 is a window glass for a vehicle emitting visible light through incident radiation of excitation light that is irradiated from a light source, and an end part 10E of the window glass for a vehicle is capable of emitting light through irradiation with the excitation light. The present invention can provide window glass for a vehicle such as a car that enables a driver to easily check warning display without narrowing the interior space or obstructing the field of view in the vehicle.

A vehicular control system includes a forward viewing camera disposed at an in-cabin side of a windshield of a vehicle and viewing forward of the vehicle. Road curvature of a road along which the vehicle is traveling is determined responsive at least in part to processing by an image processor of image data captured by the camera. Responsive at least in part to processing of captured image data, a traffic lane of the road along which the vehicle is traveling is determined. Responsive at least in part to processing of captured image data, another vehicle present on the road and forward of the vehicle may be detected. Responsive at least in part to processing of captured image data, the system may determine that the detected other vehicle is travelling in a traffic lane to the left or to the right of the traffic lane along which the vehicle is traveling.

The various embodiments set forth a display device that includes a liquid crystal module, a nano-particle semiconductor material, and a light source that includes a blue light-emitting diode configured to generate a blue output light. The nano-particle semiconductor material is configured to receive the blue output light, convert a first portion of the blue output light to a green light emission, convert a second portion of the blue output light to a red light emission, and transmit a remainder portion of the blue output light. The liquid crystal module is configured to receive the green light emission, the red light emission, and the remainder portion of the blue output light and generate an image that includes a portion of the green light emission, a portion of the red light emission, and a portion of the remainder portion of the blue output light.

A display device includes: a substrate including a display area for displaying an image and a peripheral area positioned adjacent to the display area; a plurality of normal pixels disposed within the display area on the substrate, where each normal pixel includes a first transmissive area and a pixel area disposed adjacent the first transmissive area; and a dummy pixel disposed within the display area on the substrate, adjacent to a curved section of the peripheral area, and disposed between the peripheral area and the plurality of pixels. The dummy pixel includes: a second transmissive area; and a wire area disposed adjacent the second transmissive area.

A pointer assembly for a vehicle instrument panel includes a pointer arm, a cap, and a shroud. The pointer arm includes a platform portion disposed about an axis or rotation and an arm portion extending outward from the platform portion. The platform portion includes an illuminable perimeter. The cap is secured to the platform portion of the pointer arm inside of the illuminable perimeter. The shroud is secured to the platform portion of the pointer arm outside of the illuminable perimeter, and the illuminable perimeter is visible between an outer perimeter of the cap and an inner perimeter of the shroud.

An attenuation portion is to illuminate first and second display objects while attenuating light. A display element causes light to enter the attenuation portion to illuminate the first display object in a display region. A light source irradiates light to illuminate the second display object in the display region. A display forming member has a light-blocking layer and an attenuation layer. The light-blocking layer has a light-transmitting portion defining a shape of the second display object. The attenuation layer covers the light-blocking layer from a display region side to attenuate light, which is from the light source and passes through the light-transmitting portion. The display forming member indicates the second display object in the display region with emission of light which is attenuated through the attenuation layer and enters the attenuation portion.