The present disclosure relates to a vibration generation device, a display apparatus including the vibration generation device, and a vehicle including the vibration generation device. A vibration generation device includes a piezoelectric ceramic part having a certain interval, a piezoelectric material layer between the piezoelectric ceramic parts, and an electrode part configured to provide electric field to one or more of the piezoelectric ceramic part and the piezoelectric material layer.

When the automobile is changed to the manual driving mode, the control device starts acceptance as the operation of the touch pad as an operation on the application system that displays the screen on the heads-up display, and when the automobile is in the autonomous driving mode, the control device starts acceptance of the operation of the touch pad as an operation on the application system that displays the screen on the center display.

Disclosed is a system for detecting command gestures made by a finger of a driver of a motor vehicle, including an interface pad, a light source that emits an optical beam in the infrared band toward the interface pad, an imaging sensor, for capturing images steered by the interface pad away from the driver, with a base frame and a movable plate, an optical zone of interest seen by the imaging sensor being defined at the interface between the base frame and the movable plate, the interface pad including an elastic deformable seal interposed between the base frame and the movable plate, the deformable seal including a first inclined facet, so that an optical path passing via the first inclined facet is proportionally modified by the deformation of the seal under the effect of the movement of the movable pad.

A virtual human-machine interface system for a vehicle including at least one projection surface disposed within the vehicle and a corresponding virtual human-machine interface method for a vehicle are provided. The virtual human-machine interface system comprises at least one micro-mirror projection device for projecting an image on the at least one projection surface, at least one sensor for detecting commands given by a user by determining the position of a part of the user's body within the vehicle, and a control unit for controlling the human-machine interface system. The position of the image projected by the at least one projection device within the vehicle may be modified by a specific command given by the user.

An operating device for a transportation vehicle for operating a function of a transportation vehicle, wherein the operating device includes LEDs arranged adjacent to one another forming a matrix, wherein a processing unit ascertains whether light of at least one first LED is reflected and/or radiated because of an operating action at least into a second LED.

A touch input device includes a touch unit to which a user can input a touch gesture, wherein the touch unit includes a gesture input unit positioned at a center of the touch unit and a swiping input unit inclined downward along an edge of the gesture input unit, and the gesture input unit and the swiping input unit receive separate touch signals.

A touch input system comprising a touch input device and an actuation and sensing system is presented. The actuation and sensing system has a transfer structure adjacent to a first surface of the touch input device, the transfer structure having a first portion and a beam extending from an edge of the first portion. The actuation and sensing system further has a transducer patch disposed on the beam. The transfer structure is configured to transfer forces between the touch input device and the transducer patch, such that movement of the touch input device by an external force causes deformation of the beam and of the transducer patch, and such that actuation output by the transducer patch causes movement of the touch input device. The transducer patch has a layer of transducer material that is configured to act as a sensor, and is configured to act as an actuator.

An operating device for a transportation vehicle having at least one touch-sensitive operating area to display at least one operating symbol and to actuate at least one window lifter. The operating device, viewed from an imaginary installed state in the transportation vehicle, has an upper face and a front face adjoining the upper face, at least one touch-sensitive operating area for actuating a window lifter that is on at least part of the upper face and also on at least part of the front face.

Embodiments of this disclosure pertain to a vehicle interior system comprising a base having a base surface; and a glass article coupled to the surface, wherein the glass article comprises a first portion comprising a first elastically deformed surface forming a first concave shape with a first radius of curvature from about 20 mm to about 2000 mm, and a second elastically deformed surface directly opposite the first elastically deformed surface that forms a second convex shape, wherein the second elastically deformed surface has a surface compressive stress that is less than a compressive stress at the first elastically deformed surface, and a second portion adjacent the first portion, wherein the second portion is substantially planar portion or curved.

A multiple input rotary dial user interface device and system is provided. The rotary dial user interface device may include a rotationally fixed touchpad, disposed within a center of a rotatable dial. Although fixed rotationally, the touchpad of the rotary dial user interface device may move in a linear axial direction, along the rotational axis, with or independently of the rotary dial. In addition to providing input by rotating the rotary dial, a user can provide input via touching the touchpad, actuating the touchpad, and/or actuating the rotary dial in the linear axial direction. In some cases, the rotary dial user interface device may employ the use of a static rotary encoder sensing rotation of an encoder wheel affixed to the rotary dial to determine momentum characteristics associated with the dial.