According to some embodiments, a system for presenting content can comprise at least one sensor; a display configured to present a graphical user interface (GUI); at least one processor in communication with the at least one sensor, the display, and memory containing instructions that, when executed, cause the at least one processor to: determining whether an accessory is detected by the at least one sensor; and in response to determining that the accessory is not detected, presenting first content on the display; or in response to determining that the accessory is detected, presenting second content on the display.

The visibility of the external scene from the inside of the transmissive transparent screen when the video image is not displayed and the visibility of the video image from the outside when the video image is displayed are satisfied. In a video image display system comprising a projection device 100 and a transmissive transparent screen 1 having a first surface and a second surface on the opposite side of the first surface, having a visible light transmittance of at least 5[%], and displaying video images projected from the projection device 100 installed on the first surface side, as video images visible to an observer on the second surface side, the following formula 1 is satisfied:
?1.5?ln(((B/A)/I)?G)?3.9Formula 1 in the formula 1, A is the projection area [m.sup.2] of the projection device 100, B is the luminous flux [lm] projected onto A by the projection device 100, I is the ambient illuminance [lx] at the side of the second surface, and G is the screen gain of the transparent screen 1.

An example operation includes one or more of receiving, by a computer associated with a transport, a gait of an individual from at least one camera associated with the transport, validating, by the computer, the gait, receiving, by the computer, a gesture of the individual from the at least one camera, validating, by the computer, the gesture, and performing, by the computer, one or more functions based on the validated gait and the validated gesture.

A vehicle information providing system is realized, which is capable of providing appropriate vehicle information depending on a used driving energy source. The kind of fuel used when refueling a vehicle is identified based on image information from a camera provided in a service station, and/or payment information for the refueling. The magnitude of the environmental burden caused by the identified fuel is specified so as to change, according thereto, a background color of an instrument panel of the vehicle. Also, a turn-on/turn-off state and a lighting color of an eco-lamp provided on a rear surface of the vehicle is changed. Thus, the appropriate vehicle information is provided in consideration of differences in the environmental burden depending on the used fuel even when the vehicle model is the same.

A system includes a display screen positioned to display on an exterior of a host vehicle, a user interface of the host vehicle, and a computer communicatively coupled to the display screen and the user interface. The computer is programmed to, in response to detecting a target vehicle having prespecified indicia, instruct the user interface to output an instruction to an occupant of the host vehicle, and in response to detecting personnel from the target vehicle, instruct the display screen to output a message to the personnel.

A vehicle display device is provided, the vehicle display device including a communication section configured to receive an image of a remote driver remotely operating a vehicle, an external vehicle display section configured to display an image externally to the vehicle, and a display control section configured to cause the image of the remote driver received by the communication section to be displayed on the external vehicle display section.

A vehicular display device includes at least one display panel arranged on a vehicle body of a vehicle and configured to display an image, and a display control unit configured to control display of the image. The display panel includes a movable portion provided on the vehicle body, and the display control unit includes an image control unit configured to control a display form of an image when the movable portion is operated.

A bodywork panel (13,28) for a vehicle such as a racing car (1,2) or a racing motor cycle (27) is fitted with one or more optically clear panels (16), which are profiled to follow the aerodynamic form of the bodywork panel (13,28). A flexible reflective display screen (17), for examples based on e-paper, is mounted to an inner face of each optically clear panel (16) such that an image on the display screen (17) is visible outside the vehicle through the optically clear panel (16). A paint finish on the bodywork panel (13,28) continues over a peripheral region of each optically clear panel (16), concealing a join between it and the bodywork panel (13,28). Images displayed on the display screens (17) via a display controller (25) can thus appear like painted graphics on the bodywork panel (13,28), except that they may be changed as desired. Thus, graphics on the vehicle, such as advertising and sponsorship logos, can be changed at will during a race. Leathers (30,40) worn by racing motor cyclists can be fitted with similar display screens (17) mounted behind optically clear flexible plastic panels (42) sewn to the leathers (30,40).

A vehicle includes a display, a mode setter determining a visual information provision target of an image displayed on the display according to a driving status and setting forward orientation of the image on the display according to the visual information provision target, and a display controller selecting an image corresponding to the driving status and displaying the image on the display after adjusting the forward orientation of the selected image to the inward direction, outward direction, or both directions of the display according to the forward orientation set by the mode setter.

A motor vehicle includes a left side view camera attached to the left lateral side of the body and having a field of view in a rearward direction. A right side view camera is attached to the right lateral side of the body and has a field of view in a rearward direction. There is a right back up camera and a left back up camera. An optics module receives resulting video signals and produces light fields such that the light fields are reflected off of windows of the motor vehicle and are then visible to a driver of the motor vehicle as virtual images.