A method for classifying a gesture made in proximity to a touch interface. A system receives data related to the position and/or movement of hand. The data is delimited by identifying a variable length window of touch frames. The variable length window of touch frames is selected to include touch frames indicative of feature data. The variable length window of touch frames is classified based upon classifications learned by the classifying module to identify gestures.

A vehicle console includes a trim ring disposed over a periphery of a housing. The trim ring includes a polymeric material and is electrically conductive and grounded. A proximity switch assembly is retained in the housing. The proximity switch assembly includes a proximity sensor proximate a sensing pad for generating an activation field. The sensing pad is proximate the trim ring.

A proximity sensor is provided. The proximity sensor has an exposed exterior surface formed of a metal material to improve the aesthetics thereof. The proximity sensor mounted within a vehicle includes a frame formed of a nonconductive material and a metal layer that covers an exterior surface of the frame. A sensor electrode contacts the metal layer and a sensor integrated circuit (IC) connected to the sensor electrode to sense an approach or a contact of a user on the metal layer.

The button structure including a front panel configured to define a body and having a mounting hole formed in a front surface of the front panel directed toward an interior of an occupant compartment, a button unit accommodated in the mounting hole and configured to selectively control various types of AV systems of a vehicle, a detection unit accommodated in the front panel and configured to detect a user's hand, a switch unit configured to operate various types of AV systems of the vehicle under the control of the button unit, and a lighting unit accommodated in a housing and configured to emit light to the button unit in response to a detection signal of the detection unit, in which the detection unit is disposed rearward of the button unit and positioned from the button unit in a direction opposite to the direction toward the interior of the occupant compartment.

A display panel with a first panel side and a second panel side is included in a display device. The display panel displays at least one graphic display object. The display panel includes a first layer which is a pixel matrix and a second layer which includes a plurality of predetermined primary subareas. The display device includes control circuitry to enable the displaying of the graphic display object based on a predefined display alignment in one of a first orientation and a second orientation. The control circuitry adjusts a respective light transmission to a predetermined individual degree for each of the predetermined primary subareas independent of each other based on a physical environment condition.

A vehicle includes a body defining a cabin having an interior and a passenger door, an interior panel located in the interior, a track located in the passenger door within the interior, and a desk operably housed in a slot in the interior panel and slidably coupled to the slot in the interior panel and the track to move between a stowed position within the interior panel and a use position extending outward from the interior panel.

The invention relates to a system comprising several touch-sensitive control elements that are arranged next to each other. It is provided that the control elements are able to communicate with each other via a voltage-controlled peer-to-peer line and determine when a particular control element should actively respond to touches or is deactivated.

A vehicle display device includes a display configured to show a first screen and a second screen and circuitry configured to control a position of a cursor on the first screen, on the second screen, and between the first and second screens. The circuitry moves the cursor from the first screen to the second screen if the cursor is located in a peripheral region when the user performs an operation to move the cursor from the first screen to the second screen. The circuitry restricts movement of the cursor from the first screen to the second screen if the cursor is located outside the peripheral region when the user performs an operation to move the cursor from the first screen to the second screen.

A decoration panel used as an operation button includes a decoration section between a front translucent member and a rear translucent member, and the decoration section includes a counter reflection layer superposed on a rear face of a light-shield layer. A rear reflection layer is provided between the rear translucent member and a translucent member for illumination. The decoration section is displayed as if floating at an intermediate position in a depth direction. In addition, a surface of the decoration section oriented to the rear side constitutes a counter reflection surface.

A touchscreen panel is configured to accept an input touch command. The touchscreen panel includes a liquid crystal display (LCD) layer. The touchscreen panel also includes a touch sensor having a receiving element and a transmitting element, each arranged on the LCD layer. The receiving element and the transmitting element together are configured to detect an impending touch of the touch sensor via a hover system and a touch event in a touch-detecting mode. At least one of the receiving element and the transmitting element is configured to operate in a heating mode, as a heating element, when the impending touch of the touch sensor is not detected. The resultant heating element generates a heat energy input to the LCD layer and accelerates responsiveness of the LCD layer to the touch event. A method of controlling a touchscreen panel is also disclosed.