A light source device which is miniaturized, can be manufactured at low cost, and is suitable as an illumination light source of a display device of an electronic device such as an HUD and an aerial floating image display apparatus is provided. The light source device includes: a light source configured to generate white light by irradiating a phosphor with light emitted from a solid-state light source; a collimating optical system (15) configured to convert a divergent light flux of the white light emitted from the light source into parallel light; a light guide configured to cause the light emitted from the collimating optical system (15) to be incident as incident light and emit the incident light in a direction different from an incident direction; and a filter configured to reflect light in a blue region of the parallel light to irradiate the phosphor.

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 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.

A projection unit for a field-of-vision display device for a vehicle includes an imaging unit for generating a light beam bundle having a display content; a mirror which is disposed in the beam path of the light beam bundle and has a first adjustment apparatus configured to tilt the mirror for adjustment to different eye-box positions of different users; and a second adjustment apparatus configured to tilt the imaging unit or an additional optical component such that image orientation is maintained. The projection unit is configured to generate a virtual display image in a virtual image plane in the field of vision of the user by outputting the light beam bundle toward a reflective pane, by which the light beam bundle is reflected to the eye-box of the user. The tilt is configured such that the virtual image plane has the same predefined orientation for the different eye-box positions.

A projection unit for a field-of-vision display device for a vehicle includes an imaging unit for generating a light beam bundle having a display content; a mirror which is disposed in the beam path of the light beam bundle and has a first adjustment apparatus configured to tilt the mirror for adjustment to different eye-box positions of different users; and a second adjustment apparatus configured to tilt the imaging unit or an additional optical component such that image orientation is maintained. The projection unit is configured to generate a virtual display image in a virtual image plane in the field of vision of the user by outputting the light beam bundle toward a reflective pane, by which the light beam bundle is reflected to the eye-box of the user. The tilt is configured such that the virtual image plane has the same predefined orientation for the different eye-box positions.

Systems and methods for providing a dual view display for a vehicle including an autonomous driving system. The autonomous driving system may monitor an environment in which the vehicle is operating, sense a condition in the environment, and determine a vehicle response to the condition including one or more automated vehicle actions. Condition-associated data including information about the sensed/perceived condition and/or the one or more corresponding automated vehicle actions to the condition may be provided to a dual view display system. The dual view display system may determine a notification corresponding to the perceived condition and/or the automated vehicle intention and cause the notification to be displayed on a transparent display. The transparent display provides an operator interface to communicate the vehicle perception/intention to the vehicle operator. The transparent display further provides an external Human-Machine Interface (eHMI) to communicate the vehicle perception/intention to other road users.

An interior structure for a vehicle includes: an instrument panel disposed below a front window; an instrument panel reinforcement extending in a vehicle width direction of the vehicle at a position below the instrument panel; a head-up display device having a housing structure including a front surface and a lower surface, and configured to project information onto the front window; and a support member mounted in the instrument panel, and configured to fixedly support the head-up display device. The support member includes a front wall facing the front surface of the head-up display device and a lower wall facing the lower surface, a first fixing portion serving as a fixing portion to the instrument panel, and a second fixing portion serving as a fixing portion to the instrument panel reinforcement.

An information display apparatus irradiates a transmissive reflection member with light for forming an image so as to make a virtual image of the image visible on the transmissive reflection member. The information display apparatus includes a memory, and a processor coupled to the memory and configured to control, upon a change in depth of a scene position at which to superimpose the virtual image, a degree of change in a part or an entirety of the virtual image to be displayed, differently from a degree of the change in depth.