A method for pairing a key fob with a control unit is provided. The key fob executes an ID authenticated key agreement protocol with a pairing device based on a key fob identification to authenticate one another and to generate a first encryption key. The pairing device encrypts a control unit identification using the first encryption key. The key fob receives the encrypted control unit identification transmitted from the pairing device. The key fob then executes an ID authenticated key agreement protocol with the control unit based on the control unit identification to authenticate one another and to generate a second encryption key. The key fob then receives an operational key transmitted from the control unit that is encrypted with the second encryption key.

A display device for a motor vehicle includes a first, planar display element arranged in a first display plane of the display device, and at least one further, planar display element, each arranged in a further display plane of the display device, upstream of the first display element in a viewing direction of a user. Together with the first display element, the at least one further display element forms a multilayered combination of display elements. Each of the at least one further display element has an at least partly transparent display surface and a visual protection element for setting a degree of a transparency of at least one region of the display element.

A rear-view mirror for a vehicle includes a body part, a mirror part, a display part, and an input member configured to control at least one of the body part or the display part, the input member configured to be selectively arranged in first, second, and third states. Based on the input member being in the first state, the body part is configured to be placed in a first position, and the display part is configured to turn on, based on the input member being in the second state, the body part is configured to be placed in a second position, and the display part is configured to turn on, and based on the input member being in the third state, the body part is configured to be placed in the second position, and the display part is configured to turn off.

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.

The present invention relates to a cover glass for a display, which is a glass plate having a first main surface and a second main surface. The cover glass contains, as represented by mol percentage based on oxides, from 50 to 75% of SiO.sub.2, from 5 to 20% of Al.sub.2O.sub.3, from 2 to 20% of Na.sub.2O, from 0 to 6% of K.sub.2O, from 0 to 15% of MgO, from 0 to 10% of a total amount (CaO+SrO+BaO) of CaO, SrO and BaO, from 0 to 5% of a total amount (ZrO.sub.2+TiO.sub.2) of ZrO.sub.2 and TiO.sub.2, from 0 to 10% of B.sub.2O.sub.3, and from 0 to 20% of Li.sub.2O. The cover glass has a ream minimum distance of 100 mm or more and 1,000 mm or less, and a ream period of 1 mm or more and 30 mm or less.

The embodiments disclosed in this application describe a displaying system, a displaying method, and a head-up display. The heads-up displaying system includes a display window including a transflective film, an image source emitting light incident on the imaging window, and the light emitted by the image source before reaching the transflective film only comprising s-polarized light. The transflective film is configured to directly reflect a first portion of the s-polarized light emitted from the image source. The transparent substrate reflects a second portion of the s-polarized light, and transmits a third portion of the s-polarized light to the air, the first portion of the s-polarized light, the second portion of the s-polarized light and the third portion of the s-polarized light are all s-polarized light.

An information display device attachable to a structure includes a display panel and a surface member. The display panel has a display surface and displays information on the display surface. The surface member is disposed on the display surface side of the display panel and is in a state where only the information displayed on the display surface of the display panel is visible through the surface member when the display panel is turned on. The surface member includes a first layer disposed on a front side, and a second layer that is disposed on the display panel side with respect to the first layer and adjusts light transmittance of the surface member.

An information display device attachable to a structure includes a plate-like body, a display panel, and a surface member. The plate-like body is a part of the structure and has a first attaching surface, a second attaching surface opposite to the first attaching surface, and a side portion that connects the first attaching surface and the second attaching surface to each other. The display panel is attached to the plate-like body and displays information on the display surface. The display surface is disposed from the first attaching surface to the second attaching surface of the plate-like body. The surface member is disposed on the display surface side of the display panel to cover the display panel and is in a state where only the information displayed on the display surface of the display panel is visible through the surface member when the display panel is turned on.

An information display device attachable to a structure includes a display panel and a surface member. The display panel has a display surface and displays information on the display surface. The surface member is a surface member disposed on the display surface side of the display panel, and has a surface area larger than that of the display panel. When the display panel is turned on, only the information displayed on the display surface of the display panel becomes visible through the surface member.

There are provided a screen image-displaying laminated glass that reduces the distortion of a projected display image, a method for producing the screen image-displaying laminated glass, and a screen image display system including the screen image-displaying laminated glass. The screen image-displaying laminated glass has a half-mirror film that has a transparent support and that has a selectively reflecting layer which wavelength-selectively reflects light, a first glass plate disposed on one surface of the half-mirror film, and a second glass plate disposed on the other surface of the half-mirror film. The longitudinal directions of bright and dark lines observed by a magic mirror method match each other at the first glass plate, the second glass plate, and the transparent support.