Embodiments are disclosed for systems and methods for operating a display actuator to provide user-configurable actions. An example device for a human-machine interface includes a display on a first surface of the device, an input interface adapted to detect one or more of touch input, rotation input, and push input directed to the device, a controller configured to generate control instructions based on input received from the input interface, the control instructions including display instructions for controlling output on the display, and an output interface configured to send at least a subset of the control instructions from the controller to a receiving device, the device being removably coupled to the receiving device.

The present disclosure relates to an infotainment system, to a locomotion vehicle, and to a user interface. The user interface may comprise: an input device for detecting swipe gestures of a user guided by a structure in respect of two dimensions, called finger strip in the following, a display device, and an evaluating unit. The evaluating unit may be configured to evaluate swipe gestures detected by means of the finger strip for substantially continuously variable adjustment to an output variable and to evaluate tap inputs detected by means of the finger strip for selection and/or definition of favorites.

Various implementations of a track pad system include an array of force sensors disposed between a base surface and a touch interface plate. The touch interface plate passes touch forces incident on an upper surface thereof to one or more of the force sensors in the array. At least one light source is disposed adjacent the touch interface plate such that the light from the light source is directed through the touch interface plate to illuminate at least a portion of the upper surface of the touch interface plate. One or more icons may be disposed adjacent the illuminated portion of the touch interface plate.

An operating knob for an operating apparatus extends away from a reference plane that delimits the operating knob on a rear side. The operating knob is in the form of a three-dimensionally protruding body in relation to the reference plane up to a knob height. The operating knob has at least one side wall extending between the reference plane and the knob height at an angle greater than 20 with respect to the reference plane as a placement surface for at least one finger operating the operating knob. Luminous outputs of at least one luminous segment or a pixel matrix are provided on the side wall.

A touch knob which can transmit user touches above to a touch-sensitive surface below includes a base, a rotating shaft, and a rotating cap. The rotating cap defines a receiving groove facing the base, and the rotating shaft extends into the receiving groove and is connected to the rotating cap. The rotating cap is configured to rotate to transmit user touches in a bounded circular area, at least one conductive touch head is located on the rotating cap and in the receiving groove, and moves as the rotating cap moves. The disclosure avoids the need to cut or form any opening in the cover of the touch-sensitive surface or panel for buttons to be installed. A device using the above touch knob is also provided.

Disclosed herein is a control apparatus using a dial. The control apparatus includes a sensor panel installed to be rotatable and movable up and down. A plurality of first electrodes is disposed in a surface of the sensor panel. The plurality of first electrodes is spaced apart at a predetermined distance in a circumferential direction. A first sensing electrode faces the sensor panel. The first sensing electrode is configured to be capacitively coupled with the plurality of first electrodes to sense a change in capacitance.

A operation input device includes a lever and a dial serving as movable operation parts that are moved by a user to be operated, a touch pad through which the user inputs a touch operation, and a braking mechanism for controlling movement of the lever and the dial. The dial is provided on top of the lever, and the touch pad is provided on the dial. The braking mechanism controls movement of the lever and the dial, that is, movement of the position of the touch pad, while a touch operation is performed on the touch pad.

A vehicle control device including a communication unit configured to obtain a current position of a vehicle; a sensing unit configured to sense another vehicle subject to a driving regulation and obtain current position of the other vehicle; a processor; and a computer-readable medium coupled to the processor having stored thereon instructions which, when executed by the processor, causes the processor to perform operations including autonomously driving the vehicle based on the respective current positions of the vehicle and the other vehicle in compliance with the driving regulation.

An assembly of a graphical user interface in a transportation vehicle with a transportation vehicle seat to which a range is assigned and having a touchscreen arranged in the transportation vehicle relative to the transportation vehicle seat so a first sub-region of the touchscreen is arranged within the range and a second sub-region is arranged outside of the range. The assembly includes a control unit by which a virtual operating surface with an application region and an information region are generated. The virtual operating surface is output on the touchscreen so the application region extends substantially over the first sub-region of the touchscreen and the information region extends substantially over the second sub-region of the touchscreen. During the output process, a first section of the virtual operating surface is displayed on the touchscreen.

Disclosed are a vehicle control device provided in a vehicle and a method for controlling a vehicle. The vehicle control device includes a display unit, a detachable interface device detachably attached to the display unit, and a processor controlling at least one of the display unit and the detachable interface device according to a preset scheme when the detachable interface device is attached to or detached from the display unit.