A road vehicle comprising a passenger compartment configured to accommodate a driver and at least one passenger alongside the driver; a vehicle dashboard; a content display device comprising a support element mounted centrally at the dashboard of the road vehicle; at least one screen, mechanically connected to the support element and configured to be visible to a passenger and to a driver while driving; the screen has a curved shape and is horizontally divided into a first portion 11 and a second portion 12 which are respectively visible, in a substantially mutually exclusive manner, to the driver DR and to the passenger P.

A road vehicle comprising a passenger compartment configured to accommodate a driver and at least one passenger alongside the driver; a vehicle dashboard; a content display device comprising a support element mounted centrally at the dashboard of the road vehicle; at least one screen, mechanically connected to the support element and configured to be visible to a passenger and to a driver while driving; the screen has a curved shape and is horizontally divided into a first portion 11 and a second portion 12, which are respectively visible, in a substantially mutually exclusive manner, to the driver DR and to the passenger P.

A motor vehicle includes a plurality of seats. Each seat receives a respective human occupant of the motor vehicle. A movable driver control interface enables a human occupant to drive the motor vehicle. A positioning mechanism is coupled to the driver control interface and enables a human occupant to move the driver control interface to a position in front of any one of the seats such that any one of the human occupants may use the driver control interface to drive the motor vehicle.

A first sensor device detects a viewing direction of a user, who is located in an interior of the motor vehicle, onto a display surface of a motor vehicle. A control unit of the motor vehicle determines a display parameter of a digital image subject to the detected viewing direction, specifying an absolute pictorial configuration of the digital image. The determination of the display parameter is based on the viewing direction of the user onto the absolutely pictorial configuration of the digital image, such that a relative, perspective-related configuration of the digital image is obtained so that the relative, perspective-related configuration corresponds to a target configuration of the digital image. The control unit generates the digital image as a function of the determined display parameter and the digital image is then displayed on the display surface.

A vehicle is provided including an activation section, a shielding section, and a display section. An occupant uses the activation section to activate a make-up mode to assist the occupant in doing their make-up. The shielding section makes opaque at least one of a windshield glass, a side window glass, or a rear glass in a state in which the make-up mode has been activated. The display section is configured to display a mirror image of an entire face of the occupant in front of the occupant in a state in which the make-up mode has been activated, the mirror image being in an upright state relative to the occupant.

A passenger communication lighting display on or adjacent a touch bar on a passenger door of a transit vehicle comprises a display that can be controlled to display multiple colors continuous or blinking, and a control means causing the display to be dark when the door is closed, the display to be a first color when the operator has authorized opening, the display to flash a second color when the passenger has requested the door be opened, the display to be blinking the second color when the door is opening, the display to be continuously the second color when the door is resting in the open position, and the display to be blinking a third color while the door is closing.

A processing method for a processing apparatus is disclosed. The processing method causes a computer of the processing apparatus to perform a process. The process includes detecting a position and a sleep state of a passenger inside a vehicle on a basis of information indicating a state of space including seats of the vehicle. The information is obtained from a sensor provided inside the vehicle. The process also includes notifying an operator of the vehicle of the detected position and the detected sleep state of the passenger. Further, the process also includes transmitting, upon detecting an operation, the operation being performed by the operator of the vehicle in response to the notifying, for controlling a device near the detected position of the passenger, a control command corresponding to the operation to the device.

A vehicle control device for controlling a vehicle including first and second display units disposed at different positions therein, can include a communication unit configured to communicate with the first and second display units; and a controller configured to in response to an occurrence of a preset condition, make a selection of at least one of the first display unit and the second display unit, and display a first execution screen of an application on the first display unit or a second execution screen of the application on the second display unit according to the selection, or change the first execution screen displayed on the first display unit or the second execution screen displayed on the second display unit according to the selection.

A vehicle monitor device for a vehicle that includes at least a first seat and a second seat, the vehicle monitor device including: a monitor which is electrically connected to a computer of the vehicle and which can be used for driving the vehicle; and a moving mechanism capable of moving the monitor between a position where the monitor can be used for driving by an occupant seated on the first seat and a position where the monitor can be used for driving by an occupant seated on the second seat.

A method for a situation-controlled display of an actuation element for a function in a vehicle on a touch-sensitive display surface operable by a person using the vehicle involves the actuation element as a blocking element for a window lifter of the vehicle. The actuation element is always displayed if a child is detected on a seat in the vehicle, and a window lifter associated with the seat is actuated, if a contradicting actuation of window lifters for the same window is carried out, the window lifters being accessible to different people in the vehicle, and/or if the occurring actuation of the window lifters deviates from the conventional actuation type.