A method and system for enacting a change of operating modalities of a transportation vehicle. The method includes at least one display device, which at least partially includes a screen, operated in the transportation vehicle. The at least one display device has at least two operating modes for operator control by a user. A triggering signal to the at least one display device is automatically provided. The triggering signal is triggered by at least one trigger event, is provided directly or indirectly by the transportation vehicle, and triggers a change from a first operating mode to a second operating mode. The change is at least partially indicated to the user by at least one operator alerting signal.

Display of display objects is changed as appropriate in accordance of situation change. A display control device includes: a display control unit configured to set an arrangement region on a display region of a display and control display of at least one or more display objects arranged in the arrangement region, the arrangement region having a virtual three-or-more-dimensional coordination system; and a situation determination unit configured to determine at least one situation of environment and a user, wherein the display control unit modifies the arrangement region in accordance with change of the situation.

Display of a display object is changed more appropriately. A display control device includes: a display region setting unit configured to set a display region in accordance with a screen size of a display; a display control unit configured to control display of at least one or more display objects arranged in an arrangement region provided in the display region; and a priority setting unit configured to set relative priority among the display objects arranged in the same arrangement region, wherein the display control unit sets a size of the arrangement region correspondingly to the display region that is set in accordance with the screen size of the display, and controls display of the display objects based on the priority that is set among the display objects.

A vehicular display control device includes: a display control unit for controlling a display device to superimpose an image on a surrounding view of the vehicle; and a sensor operation detecting unit for detecting whether an obstacle sensor detecting an obstacle around the vehicle is in operation. When the obstacle sensor is in operation, the display control unit: transforms a detection target area, which falls in a detection range of the obstacle sensor and expands from the vehicle to a periphery along a road surface, into a detection target image represented from a viewpoint of a driver of the vehicle; and displays a transformed image to be superimposed on the surrounding view of the vehicle.

There is provided a vehicle comprising a body having an exterior, an external display screen visible on the exterior of the body, a proximity sensor, a non-transitory memory storing an executable code and a vehicle information database including vehicle information, and a hardware processor executing the executable code to detect, using the proximity sensor, an individual within a proximity of the vehicle, activate the external display screen in response to detecting the individual within the proximity of the vehicle, display, on the external display screen, the vehicle information from the vehicle information database stored in the memory, in response to detecting the individual within the proximity of the vehicle.

A display with local dimming backlight and an active privacy mode. The display may include a backlight source, lenses, a passive diffuser, an active diffuser and a transmissive display. The backlight source may define a two-dimensional matrix of light sources configured to generate an initial light. The lenses may be mounted adjacent to the backlight source, aligned with the light sources, and configured to generate a collimated light. The passive diffuser may be mounted adjacent to the lenses and configured to spatially spread the collimated light. The active diffuser may be mounted adjacent to the passive diffuser, configured to generate an intermediate light in response to the collimated light, and configured to change a diffusive property of the intermediate light in response to a scattering signal. The transmissive display may be mounted adjacent to the active diffuser and configured to generate multiple visible images by modulating the intermediate light.

An in-vehicle apparatus mounted in a vehicle includes: an assistance processing unit that executes assistance processing for providing a user with specified information; and a display control unit that performs control to display a list according to a sequential order of the assistance processing executed by the assistance processing unit.

A projection display device includes an image data control unit that controls image data to be input to a light modulation unit, and a situation determination unit that determines, in a state where an automated driving mode is set, whether or not a situation has occurred where an operation device mounted in a vehicle and used for driving needs to be operated. When it is determined that the situation has occurred where the operation device needs to be operated, the image data control unit inputs, to a driving unit, first image data for displaying images corresponding to a plurality of operation devices in a positional relationship corresponding to an arrangement of the plurality of operation devices and displaying, in an emphasized manner, the image corresponding to the operation device that needs to be operated, and displays an operation assisting image that is based on the first image data.

According to one embodiment, a display system includes a display device that displays an image rearward of a vehicle, a first illuminance sensor that detects the brightness around the vehicle, and a second illuminance sensor that detects the intensity of the light emitted onto the front surface of the display device, and the display device includes a housing with an opening on the front side, an electro-optic layer with a transmissive-reflective layer that transmits a portion of incident light and reflects another portion of the incident light, the electro-optic layer being configured to vary the reflectivity of the incident light, a display placed on the rear side of the electro-optic layer and configured to display at least a portion of the rearward image of the vehicle, and a control circuit that controls the brightness of the display based on a value of at least one of first illuminance and second illuminance.

A non-contact operating apparatus, for a vehicle, includes a generating unit, a projecting device, an operation detecting device, an operation determining unit, and a motion detecting device. The generating unit is configured to generate and update an image containing an image object. The image object is operable by an occupant present within a vehicle compartment. The projecting device is configured to project the image in a predetermined display region. The operation detecting device is configured to detect an operation site of the occupant. The motion detecting device is configured to detect motion of the vehicle. The operation determining unit is configured to adjust a detection result of the operation detecting device to suppress the motion of the occupant on the basis of a detection result of the motion detecting device, and determine presence or absence of the operation against the image object by the operation site.