A method for providing a user interface of a transportation vehicle, wherein the user interface has at least one mechanically adjustable controller and a touch display and operates peripheral devices of the transportation vehicle. A user interface of a transportation vehicle for performing the method for operating the at least one mechanically adjustable controller to bring about temporary deactivation of the touch display so that operation of peripheral devices by the touch display is temporarily blocked during the operation of the mechanically adjustable controller.

An operating apparatus includes: a first display; a second display; and an electronic control unit. The electronic control unit is configured to output a second image onto the second display. The electronic control unit is configured to output a first image onto the first display. The electronic control unit is configured to switch between the first mode and the second mode. In a first mode, a first mode image independent of the second image is output as the first image. In the second mode, a second mode image having the same appearance as the second image is output as the first image. The electronic control unit is configured to execute a first predetermined function in the first mode and a second predetermined function in the second mode.

A smart device display for an autonomous vehicle, comprising a first display section that displays an external view of the autonomous vehicle, a second display section that displays vehicle actions that the autonomous vehicle will take and a third display section that displays alternative vehicle actions that an authorized passenger of the autonomous vehicle may select to override the vehicle actions. Such system can also comprise an artificial intelligence module that learns the alternative vehicle actions the authorized passenger selects in various intervention situations, wherein the artificial intelligence module uses machine learning algorithms to decide the best alternative vehicle actions that the authorized passenger is likely to select for similar future situations.

A system and method for controlling an in-vehicle infotainment system to control content in using a primary display includes a mobile device and the in-vehicle infotainment system in communication with the mobile device. The in-vehicle infotainment system comprises the primary display and a first secondary display. The in-vehicle infotainment system receives a first content selection signal for a first content. The first secondary display displays the first content in response to the first content selection signal. The primary display displays a content identifier corresponding to the first content.

A method performed by a vehicle settings adjustment system for facilitating user adjustment of vehicle settings of a vehicle via a display of the vehicle. The vehicle settings adjustment system determines occurrence of user interaction with a physical control interface of the vehicle, user interaction with the physical control interface affecting a therewith associated predetermined vehicle function. The vehicle settings adjustment system further provides on the display a user selectable shortcut adapted to, upon user selection thereof, provide on the display a subset of user selectable setting options enabling adjustment of one or more user adjustable vehicle settings associated with the predetermined vehicle function.

An optical display knob is mounted on an electronic display, such as a touch-screen display found in a vehicle interior cabin, and includes a knob body with an optical guide and a button located therein. The knob body is rotatable, whereas the optical guide is adhered to the electronic display via a transparent adhesive so that it is stationary, with respect to the electronic display. When the electronic display generates graphics or images, the corresponding light is transmitted through the transparent adhesive and the optical guide to a front display surface. At the front display surface, the graphics appear to be emanating from the front of the optical display knob, and not from the surface of the electronic display itself.

A vehicle includes an interface having an electromagnetic transmitter and operable to receive tactile user input for control of a system of the vehicle. The vehicle includes a controller configured to modulate output having ultraviolet or infrared spectrum wavelength of the electromagnetic transmitter at a receiver capture rate to encode data into the output describing the control interface. The modulated output is responsive to a request.

A touch screen device includes a display screen having a touch surface, an input knob, and a microcontroller programmed to execute a method. The knob has a stationary member with conductive base pads facing the surface and a moveable member. The knob lacks a direct electrical connection to the surface. The microcontroller receives encoder signals as the moveable member moves with respect to the stationary member, with the signals being indicative of discrete touch events between the moveable member and the screen, e.g., via an intervening switch. The microcontroller processes the encoder signals to determine a direction of movement of the knob, and derives a true position of a center point of the knob using a position of each of the base pads. The microcontroller then controls an operation of the touch screen device.

A smart device display for an autonomous vehicle, comprising a first display section that displays an external view of the autonomous vehicle, a second display section that displays vehicle actions that the autonomous vehicle will take and a third display section that displays alternative vehicle actions that an authorized passenger of the autonomous vehicle may select to override the vehicle actions. Such system can also comprise an artificial intelligence module that learns the alternative vehicle actions the authorized passenger selects in various intervention situations, wherein the artificial intelligence module uses machine learning algorithms to decide the best alternative vehicle actions that the authorized passenger is likely to select for similar future situations.

A motor vehicle operating device (10) for an interior of a motor vehicle has an operating surface (26) which has a plurality of switching symbols (28) displayed thereon, each of which having a touch sensor (38) associated therewith. The touch sensors (38) are each configured to detect an approach to and/or a touch of the operating surface (26). The motor vehicle operating device (10) further comprises a plurality of pressure sensors (40) which are associated with the switching symbols (28), the number of pressure sensors (40) being smaller than the number of touch sensors (38).