When there is a new driving assistance function for a registered driver, which is a driving assistance function enabled for the first time for the relevant registered driver among a plurality of driving assistance functions to be enabled for registered drivers, a test executor executes a driving ability test according to the new driving assistance function for the relevant registered driver. A personalization setter determines recommended setting values of the new driving assistance function based on the result of the driving ability test.

An optical film and an optical imaging system are provided. The optical film includes a first lens layer, a first deflection layer, a reflection layer, a second deflection layer, and a second lens layer. The second lens layer is attached to a windshield. The reflection layer is configured to reflect an image light beam to form a first reflected light beam and the first lens layer and the first deflection layer are configured to amplify and/or deflect the first reflected light beam, to guide the first reflected light beam to a field-of-view direction. The second lens layer and the second deflection layer are configured to amplify and/or deflect a second reflected light beam, to guide the second reflected light beam to a first direction. The second reflected light beam is formed by that the windshield reflects the image light beam. The field-of-view direction is different from the first direction.

An optical film and an optical imaging system are provided. The optical film includes a first lens layer, a first deflection layer, a reflection layer, a second deflection layer, and a second lens layer. The second lens layer is attached to a windshield. The reflection layer is configured to reflect an image light beam to form a first reflected light beam and the first lens layer and the first deflection layer are configured to amplify and/or deflect the first reflected light beam, to guide the first reflected light beam to a field-of-view direction. The second lens layer and the second deflection layer are configured to amplify and/or deflect a second reflected light beam, to guide the second reflected light beam to a first direction. The second reflected light beam is formed by that the windshield reflects the image light beam. The field-of-view direction is different from the first direction.

A head-up display device (1), comprising a housing including a front wall (11), a rear wall and two opposing side walls connecting the side edges of the front wall (11) and the rear wall, and a covering wall (15), each of said walls including an upper edge (110, 120, 130, 140),the covering wall (15) being connected to the upper edges of the front, rear and side walls so as to cover the internal cavity of the housing (10),wherein said walls each include a lower edge opposite their upper edge, and at least one of the front (11), and/or rear and/or side walls comprise a frangible portion (55) arranged so as to allow the covering wall (15) to be moved closer to one of the lower edges by breaking said frangible portion.

A head-up display device (1), comprising a housing including a front wall (11), a rear wall and two opposing side walls connecting the side edges of the front wall (11) and the rear wall, and a covering wall (15), each of said walls including an upper edge (110, 120, 130, 140),the covering wall (15) being connected to the upper edges of the front, rear and side walls so as to cover the internal cavity of the housing (10),wherein said walls each include a lower edge opposite their upper edge, and at least one of the front (11), and/or rear and/or side walls comprise a frangible portion (55) arranged so as to allow the covering wall (15) to be moved closer to one of the lower edges by breaking said frangible portion.

Content display device for a road vehicle; the content display device comprises a support element configured to be centrally mounted in the area of a dashboard of the road vehicle; at least one screen mechanically connected to the support element and configured to be visible to a passenger and/or to a driver while driving; the support element comprising a perimeter portion surrounding the screen; the device comprising mechanical controls arranged on and protruding from the perimeter portion.

Content display device for a road vehicle; the content display device comprises a support element configured to be centrally mounted in the area of a dashboard of the road vehicle; at least one screen mechanically connected to the support element and configured to be visible to a passenger and/or to a driver while driving; the support element comprising a perimeter portion surrounding the screen; the device comprising mechanical controls arranged on and protruding from the perimeter portion.

The disclosure relates to a laminated glass and a head-up display system. The laminated glass includes a first transparent substrate, a second transparent substrate, and an adhesive film. The laminated glass has a light-transmitting region and a light-blocking region surrounding at least part of a periphery of the light-transmitting region. The adhesive film is disposed between the first transparent substrate and the first transparent substrate and configured to adhere the first transparent substrate and the second transparent substrate. The light-transmitting region has a visible light transmittance greater than or equal to 70%. The light-blocking region has a visible light transmittance less than or equal to 5%. The light-blocking region has a first region located below the light-transmitting region, and the first region has one or more first function display regions for displaying of image.

The disclosure relates to a laminated glass and a head-up display system. The laminated glass includes a first transparent substrate, a second transparent substrate, and an adhesive film. The laminated glass has a light-transmitting region and a light-blocking region surrounding at least part of a periphery of the light-transmitting region. The adhesive film is disposed between the first transparent substrate and the first transparent substrate and configured to adhere the first transparent substrate and the second transparent substrate. The light-transmitting region has a visible light transmittance greater than or equal to 70%. The light-blocking region has a visible light transmittance less than or equal to 5%. The light-blocking region has a first region located below the light-transmitting region, and the first region has one or more first function display regions for displaying of image.

A head-up display includes an illumination optical module comprising a plurality of light sources; an image generator configured to receive light generated from the plurality of light sources and configured to generate image light; and a heat dissipation device configured to dissipate heat of the illumination optical module and the image generator, wherein the heat dissipation device includes an illumination heat dissipation unit configured to dissipate heat of the plurality of light sources; and an image generator heat dissipation unit configured to dissipate heat of the image generator, wherein the illumination heat dissipation unit includes: a first heat dissipation unit configured to dissipate heat of at least one of the plurality of light sources; and a second heat dissipation unit configured to dissipate heat of another of the plurality of light sources.