An input device is described which comprises a touch-sensitive surface and a force sensor, wherein the force sensor is adapted to detect a force applied to the touch-sensitive surface. The input device further comprises a vibration sensor and a control unit, wherein the control unit is coupled with the force sensor, the touch-sensitive surface and the vibration sensor. The control unit is adapted to validate a force detected by the force sensor as an input in dependence on a touch of the touch-sensitive surface and in dependence on a vibration detected by the vibration sensor. There is further described a motor vehicle which comprises such an input device. A method of detecting an input at an input device is further described.

An apparatus and method for controlling an automatic lane change of a vehicle in consideration of a speed limit are configured to obtain information about the speed limit of a road from map information including information about the speed limit of the road, and calculate a speed at which an automatic lane change function is operable based on the speed limit of the road. As a result, it is possible to control the automatic lane change of the vehicle while automatically complying with laws and/or regulations in consideration of the speed limit of the road.

A conditionally transparent touch control surface including a base layer, a display layer, and a surface layer. The display layer includes a plurality of display areas each with an OFF state and an ON state. The surface layer covers the plurality of display areas and each display area is visible through the surface layer only while that display area is in the ON state. The control surface is flexible and contours to a shape such as the shape of an interior surface of a vehicle. The display areas can be reconfigured to match with a specific function and to display a specific icon, and the display areas can be hidden from view when not in use.

A shaped part can comprise an opaque decorative layer, at least two symbols on the front side, a translucent base, the decorative layer having one or more first light channels, one or more first functional having a first light element, a first functional layer on the rear side of the base, the first functional elements on the front side of the first functional layer, the decorative layer having one or more second light channels, one or more second functional elements having a second light element, a second functional layer on the rear side of the decorative layer, the second functional elements in or on the second functional layer, and being provided at least partially in the second light channels, the second functional elements covering the second light channels of the decorative layer such that the second light channels become or are shielded from light of the first light elements.

A component for a vehicle interior may comprise a housing; a cover structure comprising a cover surface; and a user interface at the cover surface comprising a light display. The light display may comprise a light guide comprising a projection. The cover structure may comprise a cover base and a cover layer. The cover layer may be molded on the cover base. The cover base may comprise the light guide. The cover layer may comprise an aperture. The projection may extend into the aperture. The cover base may comprise an aperture, recess, notch and/or indentation. The cover layer may comprise a generally opaque material preventing visibility of a recess in the cover base. The cover base may comprise a different color and/or softness than the cover layer. The cover structure may comprise apertures and/or recesses for the light guide.

A method includes automatically determining a first user input with a first predefined manipulation force acting on the input device and, in response thereto, performing a first function according to the first manipulation force. The method also includes automatically determining a second user input with a second predefined manipulation force acting on the input device, which second manipulation force is higher than the first manipulation force, and, in response thereto, selecting a first display element from a plurality of display elements displayed on a display unit, by switching an input focus to the first display element.

An operation device for an autonomous vehicle includes a touch panel configured to display at least one of a start button and a deceleration button, and a notification button on the same screen. The autonomous vehicle is autonomously drivable. The start button is a button for starting driving of the autonomous vehicle in an autonomous drive mode. The deceleration button is a button for decelerating the autonomous vehicle during the autonomous drive mode. The notification button is a button for performing notification to an outside of the autonomous vehicle.

An operation device includes an operation unit configured to be movable relative to a device body of the operation device. The operation device includes a first detector that detects touching of the operation unit and a second detector that detects movement of the operation unit relative to the device body. The operation device further includes a controller that processes detection signals of the first detector and the second detector so that the movement of the operation unit relative to the device body and the touching of the operation unit correspond to inputs for operating an operation subject apparatus.

A vehicle input control device includes: an operation reception unit that receives input from operation switches provided in a vicinity of a driver's seat of a vehicle; a function switching reception unit that receives input from function switching switches that switch functions allocated to the operation switches; and a function switching restriction unit that restricts switching of the functions by the function switching reception unit in a case in which a driving mode of the vehicle is a predetermined driving mode.

A vehicular display control device that is configured to: display, at a display, an image of a switch that causes a transition from a first state to a second state in response to being pressed a first time and does not cause a return from the second state to the first state in response to being pressed a second time or more than a second time; and display, at the display, a text string indicating that the transition to the second state is complete in response to the switch having been pressed once in a state in which the image is displayed.