A remote display device includes processing circuitry. The processing circuitry display a display screen. The processing circuitry generate a plurality of display data corresponding to mutually different display areas, each being a part of the display screen. The processing circuitry transmit the plurality of display data generated to a plurality of terminal devices, respectively. The processing circuitry update the display screen based on operation data indicative of an operation performed by the terminal device to the display area corresponding to the display data.

A display control device includes a display region setting unit, a priority setting unit, and a display control unit. When a positional relationship between a plurality of display objects on a plurality of display regions changes in size or the plurality of display regions and display objects are within a predetermined distance, the display control unit, when the priority of the plurality of display objects is different from each other, changes the attribute information relating to the display objects from visible to invisible in accordance with the priority, and hides the display objects changed to be invisible as the attribute information, and when the priority of the plurality of display objects displayed on the plurality of display regions is not different from each other, does not change the attribute information relating to the display objects from visible to invisible, and cancels change in size of the plurality of display regions.

In the case in which a loss of the viewpoint position of a driver occurs when a viewpoint position follow-up warping control is executed to update warping parameters according to the viewpoint position of the driver, and then the viewpoint position is re-detected, it is suppressed that the appearance of an image instantaneously changes in accordance with the update of the warping parameters and the driver is caused to feel uneasy. When the viewpoint loss in which at least one position of the right and left viewpoints becomes unclear is detected, a control unit, which executes the viewpoint position follow-up warping control, maintains, in a viewpoint loss period, the warping parameters set immediately before the viewpoint loss period, and, when the viewpoint position is re-detected after the viewpoint loss period, invalidates at least one warping process using the warping parameters corresponding to the re-detected viewpoint position.

A modular display system for a vehicle is disclosed. The system includes a plurality of display units that may be arranged along an exterior of the vehicle in different orientations. The system offers a modular, scalable, accessible, and simplified approach to exterior displays for automated and other types of vehicles. The displays, being modular, are not tied to the specific mounting location on the vehicle's exterior. The image data for each display is rotated based on the orientation of the display as installed which is identified by reference to the distinct pin connections of each display's control port.

A system for displaying information indicative of driving conditions, to a driver, using a smart ring are disclosed. An exemplary system includes a smart ring with a ring band having a plurality of surfaces including an inner surface, an outer surface, a first side surface, and a second side surface. The system further includes a processor, configured to obtain data from a communication module within the ring band, or from one or more sensors disposed within the ring band. The obtained data are representative of information indicative of one or more driving conditions to be displayed to the driver. The smart ring also includes an electronic ink (e-ink) display disposed on at least one of the plurality of surfaces, and configured to present information indicative of the one or more driving conditions.

According to one embodiment, a color changing display includes a housing, a cover cooperatively coupled to the housing, a light panel, and a color display panel. The light panel and the color display panel are positioned between the housing and the cover. The light panel and the colored display panel are each selectively activated to operate in at least one of: a reflective mode, a transmissive mode, and a transflective mode.

An information processing apparatus obtains first image data representing an image displayed on a first monitor provided in an autonomous vehicle after the completion of updating of first software that controls the display on the first monitor. Then, the information processing apparatus determines whether or not the items displayed on a second monitor used for remotely monitoring the operation of the autonomous vehicle after the completion of updating of second software that controls the display on the second monitor and the items displayed on the first monitor extracted from the first image data are identical to each other.

The disclosure is directed to systems and system for providing human-machine interface (HMI), and more particularly, to system for providing a part of HMI system and system components for controlling a vehicle, controlling a personal communication device and displaying integrated information from both to the user.

The invention relates to a method for operating an interactive visibility screen on a transparent pane of a pane device, in particular in a motor vehicle. The visibility screen is generated by means of a display unit of the pane device on the pane by pixel-wise fade-in of opaque image points, wherein the image points form a coherent visibility screen area. In the method, an operational action by the user is first detected by means of a detection device, which comprises a selection of a setting range and a movement relative to the pane. Subsequently, an expansion of the visibility screen area at the setting range is set as a function of the detected movement by means of a control device.

A HUD system and light source apparatus can be manufactured with miniaturization at low cost. A head-up display apparatus includes: an image display apparatus generating image light to be projected; an optical system performing predetermined correction to the image light emitted from the image display apparatus; and a concave mirror reflecting the image light corrected by the optical system to project it onto a windshield or combiner. The image display apparatus includes: a solid light source; a collimating optical system converting, into parallel light, the light from the solid light source; a lighting optical system configured by an optical member that polarizes a direction of a light beam generated by the collimating optical system and simultaneously expands a width of the light beam; and a display apparatus, the image display apparatus being configured to be arranged across and opposite the optical system on an optical axis of the concave mirror.