A vehicle display control device includes a memory and a processor coupled to the memory. The vehicle display control device is configured such that the processor controls a vehicle display device for displaying an image on a display region so as to be superimposed on a portion of a view ahead of a vehicle. The processor is configured so as to detect a preceding vehicle traveling at a vehicle front side of a host vehicle, and in cases in which the preceding vehicle has been detected, causes an image that includes a plurality of inter-vehicle marker objects from the host vehicle side toward the preceding vehicle side to be displayed in the display region, and causes sequential emphasis display of the plurality of inter-vehicle marker objects in sequence from the host vehicle side toward the preceding vehicle side.

The application discloses a display module and a field-of-view display device for a vehicle in which a light-emitting function layer in the display module has a centerline perpendicular to a first direction. The dimming main optical axis resulted from the main optical axis of the first light-emitting units passing through the corresponding first dimming units coincide with the main optical axis of the first light-emitting units. The dimming main optical axis resulted from the main optical axis of the second light-emitting units passing through the corresponding second dimming units are disposed close to the centerline with respect to the main optical axis of the second light-emitting units.

The application discloses a display module and a field-of-view display device for a vehicle in which a light-emitting function layer in the display module has a centerline perpendicular to a first direction. The dimming main optical axis resulted from the main optical axis of the first light-emitting units passing through the corresponding first dimming units coincide with the main optical axis of the first light-emitting units. The dimming main optical axis resulted from the main optical axis of the second light-emitting units passing through the corresponding second dimming units are disposed close to the centerline with respect to the main optical axis of the second light-emitting units.

An LCD display unit for a reflection display system in a motor vehicle includes an LCD pixel matrix for selectively controlling picture elements for presenting a display image on a display area; a backlight arrangement, which is divided into selectively controllable dimming zones in order to illuminate regions containing multiple picture elements with background light; and a control unit, which is configured to control the LCD pixel matrix so that the display image is output, the display image being distorted using a warping function in order to compensate for a distortion of the display image as a result of reflection from a reflection region. The dimming zones have a shape and a size determined by the warping function.

An LCD display unit for a reflection display system in a motor vehicle includes an LCD pixel matrix for selectively controlling picture elements for presenting a display image on a display area; a backlight arrangement, which is divided into selectively controllable dimming zones in order to illuminate regions containing multiple picture elements with background light; and a control unit, which is configured to control the LCD pixel matrix so that the display image is output, the display image being distorted using a warping function in order to compensate for a distortion of the display image as a result of reflection from a reflection region. The dimming zones have a shape and a size determined by the warping function.

A vehicle display device, which emits display light from an opening toward a windshield and thereby allows a virtual image and a real image of a display image represented by the display light to be visually recognized, includes a display unit including a display element, transmitting light emitted by a light source, and displaying the display image, a reflection unit reflecting light representing the display image displayed on the display unit toward the windshield, and a control unit. The control unit executes light intensity control processing of controlling a light intensity of the light source in such a way that a real image display luminance setting when a real image is visually recognized and a virtual image display luminance setting when a virtual image is visually recognized have a predetermined luminance difference from each other.

A vehicle display device, which emits display light from an opening toward a windshield and thereby allows a virtual image and a real image of a display image represented by the display light to be visually recognized, includes a display unit including a display element, transmitting light emitted by a light source, and displaying the display image, a reflection unit reflecting light representing the display image displayed on the display unit toward the windshield, and a control unit. The control unit executes light intensity control processing of controlling a light intensity of the light source in such a way that a real image display luminance setting when a real image is visually recognized and a virtual image display luminance setting when a virtual image is visually recognized have a predetermined luminance difference from each other.

An apparatus for use in a vehicle is provided. The apparatus includes at least one processing core and at least one memory storing instructions that, when executed by the at least one processing core, cause the apparatus at least to send control information to control an at least in part transparent screen placed, or configured to be placed, at least in part in a field of view of a video sensor element of the vehicle, select an area of the screen which encompasses a part, or all of the screen, and determine the control information so that the screen, when acting on the control information, transmits light through parts of the screen not included in the selected area and blocks or distorts light passing through the selected area toward the video sensor element.

An apparatus for use in a vehicle is provided. The apparatus includes at least one processing core and at least one memory storing instructions that, when executed by the at least one processing core, cause the apparatus at least to send control information to control an at least in part transparent screen placed, or configured to be placed, at least in part in a field of view of a video sensor element of the vehicle, select an area of the screen which encompasses a part, or all of the screen, and determine the control information so that the screen, when acting on the control information, transmits light through parts of the screen not included in the selected area and blocks or distorts light passing through the selected area toward the video sensor element.

A cockpit display system includes a cockpit, a first display apparatus, a second display apparatus, a first light sensor, a second light sensor and a brightness distribution calculation module. The first light sensor is suitable for detecting a first ambient light brightness. The second light sensor is suitable for detecting a second ambient light brightness. The brightness distribution calculation module is suitable for respectively calculating a first brightness, a second brightness, a third brightness and a fourth brightness of the first display area and the second display area of the first display apparatus and the third display area and the fourth display area of the second display apparatus under a same display gray level according to the first ambient light brightness and the second ambient light brightness. The first brightness, the second brightness, the third brightness and the fourth brightness are different from each other.