A display system that is configured for integration into a vehicle comprises a light source and an optical subsystem optically coupled to the light source. The optical subsystem includes a reflector and at least one semi-reflective optic, wherein the optical subsystem is configured to direct light rays to provide a plurality of virtual images that appear to a viewer concurrently at a respective plurality of different optical depths, by causing light of each of the virtual images to travel a different distance within the optical subsystem before exiting the optical subsystem on a path toward eyes of the viewer.

A virtual touch recognition apparatus and a method of correcting a recognition error of the virtual touch recognition apparatus utilize a user's eye position and an image display position or projection position of a head-up display (HUD). The virtual touch recognition apparatus includes a gesture recognizer detecting the eye position of a user, the head-up display projecting an image on the image display position in front of the user, and a controller correcting a recognition error of a virtual touch based on the eye position of the user and the image display position. The apparatus and method can minimize a virtual touch recognition error occurring depending on the user's eye position and the image display position of the HUD when gesture control technology using the virtual touch is applied to a vehicle.

A resin component includes a natural wooden veneer, a light-transmitting ink printed layer, an adhesive layer, and a light-transmitting reinforcement layer. The veneer includes a sparseness portion and a denseness portion of conduits, is 50% or more and 80% or less in light transmittance, and is 0.1 mm or more and 0.6 mm or less in plate thickness. The light-transmitting ink printed layer is formed on a first surface of the veneer, is 2 m or more and 20 m or less in thickness, and contains a pigment or a dye. The adhesive layer is formed on a second surface which is an opposite side of the first surface of the veneer. The reinforcement layer is formed on a surface, which is an opposite side of the veneer, of the adhesive layer.

Provided is an electronic device comprising a sensor configured to detect a gesture without touching an own device and a controller configured to determine a hand of a user used for operation according to a driver's seat position and determine, according to the hand of the user used for operation, a direction of the gesture based on an output from the sensor.

A first set of signals corresponding to a first signal modality (such as the direction of a gaze) during a time interval is collected from an individual. A second set of signals corresponding to a different signal modality (such as hand-pointing gestures made by the individual) is also collected. In response to a command, where the command does not identify a particular object to which the command is directed, the first and second set of signals is used to identify candidate objects of interest, and an operation associated with a selected object from the candidates is performed.

A system for detecting command gestures made by a finger of a motor vehicle driver, including at least one interface pad, a light source that emits an infrared optical beam toward the interface pad, an imaging sensor, in order to capture images steered by the interface pad away from the driver, the interface pad including a base frame and a movable plate that is movable between a rest position and at least one activation position, the base frame including a first inclined edge and the movable plate including a second inclined edge, the first and second inclined edges forming a zone of contrasts of interest as seen by the imaging sensor, and being separated by a space or brought closer together depending on the position of the movable plate, and generating a contrast effect in the images of the interface pad that are captured by the imaging sensor.

A display device includes: a sensor, a display, and a processor. The processor is configured to set a primary user of the display, detect a hand of a user using the sensor, determine whether the detected hand is a hand of the primary user, based on the determination that the detected hand is the hand of the primary user, execute a first function according to a first movement of the detected hand, and control the display to display information corresponding to the first function.

Vehicle systems and methods for determining a final target position based on either a first target position and a second target position are disclosed. A vehicle includes a user detection system configured to output a gesture signal in response to a hand of a user performing at least one gesture to indicate a final target position. The vehicle also includes a user gaze monitoring system configured to output an eye location signal that indicates an actual eye position of the user. The vehicle also includes one or more processors and one or more non-transitory memory modules communicatively coupled to the processors. The processors store machine-readable instructions that, when executed, cause the one or more processors to select either the first target position or the second target position as the final target position based on a first accuracy and a second accuracy.

An electronic device mountable in a car includes a first sensor configured to detect a gesture that does not come into contact with the electronic device, a second sensor configured to detect a touch that comes into contact with the electronic device, and a controller. The controller is configured to reduce the size of icons, displayed on a display, when detection by the first sensor is enabled and the car is moving.

A method of operating a display device for a motor vehicle having a plurality of display areas includes providing a plurality of non-contact input operations where a first non-contact input operation of a user is detected and verified by a second non-contact input operation of the user in order to select at least one display element on a first display area, and at least one third non-contact input operation of the user is detected.