The invention relates to a method for detecting a user input for an input device having a plurality of switch elements, wherein a control action with a marking gesture and a selection gesture is detected. In doing so, at least one first and one additional switch element are marked sequentially in a specific sequence using the marking gesture, wherein initially the first switch element and then the at least one additional switch element is marked. Using the selection gesture, the marked switch elements are selected sequentially in reverse sequence. Depending on the selected switch elements, control signals are generated and output. The invention furthermore relates to an input device having a plurality of switch elements, a control unit and a detection unit by means of which a control action with a marking gesture and a selection gesture is detectable. In doing so, at least one first and one additional switch element are markable sequentially in a specific sequence using the marking gesture, wherein initially the first switch element and then the at least one additional switch element is markable. Depending on the selection gesture, the marked switch elements are sequentially selectable in the reverse sequence, and control signals can be generated and output depending on the selected switch elements.

An electronic device attachable to a vehicle may include an interface, an input device is provided. The electronic device includes a display, and a processor configured to detect that a context related to the vehicle corresponds to a first context based on first information received via the interface, in response to the detection that the context related to the vehicle corresponds to the first context, display a first indication indicating a first function corresponding to the first context from among a plurality of functions of the vehicle, which are controllable by the input device, while displaying the first indication, detect that the context related to the vehicle changed from the first context to a second context based on second information received via the interface, and based on the detection, display a second indication which is changed from the first indication and indicates a second function corresponding to the second context.

A display device for a vehicle may include a display panel configured to display an image and a touch sensor configured to sense a touch of a user and generate touch information about the touch. The touch sensor may be operated in a first mode or a second mode. The touch information may include first information about a fingerprint of the user, second information about a position of the touch, and third information about movement of the touch. When the touch of the user is sensed, the touch sensor may operate in the first mode and generate the first information. When the generation of the first information is completed, the touch sensor may operate in the second mode and generate the second information and the third information. The power and the ignition of the vehicle may be controlled using the touch information.

Provided with an input system including: a detection device that contains a detection sensor which detects a user operation and is arranged apart from a display device, and an output circuit which outputs detected information indicating the user operation detected by the detection sensor; an input device which inputs the detected information; and a control device that contains a control means implemented by a programmed processor which, when the user operation is judged to indicate an operation performed at a prescribed position on the basis of the detected information input by the input device, determines the display position of an indicator on a screen of the display device as a specific position.

The invention relates to a control system (2) for controlling a main monitor (10) of a motor vehicle, said control system (2), configured so as to be installed on a central console (12), comprising a display screen and a touchscreen. Said control system (2) has a first mode of operation in which said display screen is in an inactive state and the touchscreen is in a basic configuration, and a second mode of operation in which said display screen is in an active state and the touchscreen is in an advanced configuration; the control system furthermore comprises a control module configured so as to put the control system into said first mode of operation when the vehicle is in a driven driving mode or into said second mode of operation when the vehicle is in an autonomous driving mode.

A terminal is provided to recognize a touch input and a gesture input intended by a user. A vehicle includes the terminal configured to display buttons to be selected by a user, and receive a touch input as user input. An image input receives an image of the user for receiving a gesture input as the user input and a controller divides an area of the terminal into a first area and a second area. The controller determines a button selected by the user among buttons displayed in the first area based on the touch signal output by the touch input, and determines a button selected by the user among buttons displayed in the second area based on a finger image and an eye image in the image.

A user interface system for a vehicle interior includes a contact surface, a sensor grid and a controller. The sensor grid is configured for variable electrical resistance in response to applied pressure and the controller is configured to detect the electrical resistance of the sensor grid by monitoring a voltage. The controller detects the location of an input from a vehicle occupant, the intensity of the input, and the duration of the input.

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.

A user interface capable of controlling various functions of a vehicle is disclosed. More particularly, an in-vehicle function control apparatus using a detachable knob and a method of controlling the same are disclosed. A method of controlling a vehicle function using a detachable knob includes an integrated operation unit detecting an attachment position of the detachable knob among a plurality of attachment positions in a vehicle, transmitting information on a result of the operation from the detachable knob to the integrated operation unit when an operation unit provided in the detachable knob is operated, and the integrated operation unit controlling a controlled function corresponding to the attachment position of the detachable knob based on the information on the result. The detachable knob is fixed at any one of the plurality of attachment positions using magnetic force.