Disclosed is display apparatus for a vehicle including a display unit, a gesture sensing unit located around the display unit for sensing a 3D gesture made by an object, and a processor for generating a control signal based on the 3D gesture. The gesture sensing unit includes a first light-emitting unit for emitting a first group of rays along a first optical path, a second light-emitting unit for emitting a second group of rays along a second optical path, and a light-receiving unit for receiving a first group of reflected rays formed when the first group of rays is reflected by the object and a second group of reflected rays formed when the second group of rays is reflected by the object.

In one embodiment, a system for a vehicle control display device is provided. The system includes a vehicle steering wheel having spokes connected to a steering shaft, the wheel positioned in front of a dashboard having controls mounted therein. The system further includes a flexible display attached to the wheel or a spoke. The system further includes a sensor installed in the wheel to detect a driver's hand position on the wheel. The system further includes an overhead camera and micro cameras installed in the wheel to determine the driver's eye position. The system further includes a processor attached to the flexible display, the sensor, and the cameras to determine which controls are obscured by the wheel and the spokes and for displaying pre-specified ones of the obscured controls on the flexible display.

A user interface apparatus for a vehicle including a touch screen; a gesture input unit configured to detect a gesture of a user; and a processor configured to in response to the gesture detected by the gesture input unit being applied from a driver seat of the vehicle, display a preset first screen on the touch screen corresponding to driver operations of the vehicle, and in response to the gesture detected by the gesture input unit being applied from a front passenger seat of the vehicle, display a preset third screen on the touch screen corresponding to passenger operations of the vehicle excluding vehicle driving operations.

An HUB system 1 is equipped with an HUB device 10 for displaying a video in front of a vehicle; a communication unit 31 for connecting a mobile device 3 with the HUD device and establishing communication; a speaker 32 for outputting sounds to a driver; a microphone 33 for picking up the voices of the driver; a sound recognition unit 34 for analyzing the picked-up voices; and an in-vehicle camera 35 for photographing the face of the driver. When there is an incoming call at the mobile device, a calling indication of the mobile device 3 is displayed on the display screen of the HUD device, an incoming call sound is outputted from the speaker, and on the basis of a result of an analysis of voices uttered by the driver performed by the sound recognition unit, the conversation operations of the mobile device are started or ended.

A device and a method for signaling a successful gesture input by means of a user. A user gesture is sensed and classified by a processing device. In response to the classified gesture, an animation may be generated that visually emphasizes a position that can change linearly at least in certain parts, along an edge of a screen assigned to the gesture input.

An operating system for a motor vehicle includes: a display device for displaying an operating area, and an operating unit which has a sensor device for detecting the approach and the position of at least one finger of a user to the operating unit. In this case, if the sensor device detects that two or more fingers are undershooting a specifiable minimum distance from the operating unit and are carrying out a first specifiable motion, an additional operating area is displayed in addition or alternatively to the operating area.

An apparatus for color-dependent detection of image contents includes a light input coupling apparatus, carrier medium, measuring region, output coupling region, and camera apparatus. The light input coupling apparatus includes a light source to emit light at a first wavelength. The carrier medium receives the light and transmits the light by internal reflection to the measuring region. The measuring region includes a first diffraction structure that outputs light at the first wavelength. The first diffraction structure is formed as a multiplex diffraction structure to input light in a second wavelength range. The output coupling region includes a second diffraction structure formed as a multiplex diffraction structure that outputs light at the first wavelength and the second wavelength range. The camera apparatus captures light output from the carrier medium to the camera apparatus, and provides the light in a form of image data which correlates with the light.

A user interface, a computer program product, a signal sequence, a means of transportation and a method for classifying a user gesture performed freely in space. A first gesture and/or a second gesture may be detected by a sensor. A processor may compare a first characteristic of the first gesture with a first characteristic of a second gesture, and, as a function of the comparison, the first gesture may be classified in contrast to the second gesture as an intended user input.

The system is characterised in that, the vehicle comprising a head-up-type display (34), said system comprises a gesture recognition device (26) that can supply data representative of a gesture made by the driver of the vehicle, and a control module (28) for processing the data, the control module (28) being designed so as to be able to control the display of at least one visual feedback (30, 32) on the display, upon reception of said data representative of the gesture made by the driver.

In a driving support device, an image output unit outputs an image including a vehicle object representing a vehicle and a peripheral situation of the vehicle, to a display unit. An operation signal input unit receives a gesture operation by a user that involves moving of the vehicle object in the image displayed on the display unit. A command output unit outputs a command according to the gesture operation, to an automatic driving control unit that controls automatic driving.