An optical detection device is applied to an optical finger navigation apparatus and suitable for a variety of appearance demands in order to simplify product qualification procedure. The optical detection device includes a substrate, a housing, an optical sensor and a cover. The housing is disposed on the substrate and comprising a first aperture. The optical sensor is disposed on the substrate and adapted to receive an optical signal through the first aperture. The cover is disposed on the housing to cover the first aperture. The cover has a first surface and a second surface opposite to each other. The first surface with a contour matched with a shape of the housing is attached to the housing, and the second surface with a contour manufactured for a predefined appearance demand does not affect conjunction between the housing and the cover.

Systems and methods are provided to enable users to interact with user terminals having a touch screen interface without requiring the user to physically contact a surface of the touch screen interface.

The liquid crystal display device includes a first substrate provided with a terminal portion, a switching transistor, a driver circuit portion, and a pixel circuit portion including a pixel transistor and a plurality of pixels, a second substrate provided with a common electrode electrically connected to the terminal portion through the switching transistor, and liquid crystal between a pixel electrode and the common electrode. In a period during which a still image is switched to a moving image, the following steps are sequentially performed: a first step of supplying the common potential to the common electrode; a second step of supplying a power supply voltage to the driver circuit portion; a third step of supplying a clock signal to the driver circuit portion; and a fourth step of supplying a start pulse signal to the driver circuit portion.

A method, including receiving, by a computer, a two-dimensional image (2D) containing at least a physical surface and segmenting the physical surface into one or more physical regions. A functionality is assigned to each of the one or more physical regions, each of the functionalities corresponding to a tactile input device, and a sequence of three-dimensional (3D) maps is received, the sequence of 3D maps containing at least a hand of a user of the computer, the hand positioned on one of the physical regions. The 3D maps are analyzed to detect a gesture performed by the user, and based on the gesture, an input is simulated for the tactile input device corresponding to the one of the physical regions.

Aspects of the present invention relate to external user interfaces used in connection with head worn computers (HWC).

Aspects of the present invention relate to external user interfaces used in connection with head worn computers (HWC).

A display panel includes a display pixel configured to irradiate light, an image sensor pixel included together with the display pixel in one unit pixel, including a thin film transistor (TFT) photodetector including an active layer formed of amorphous silicon or polycrystalline silicon on an amorphous transparent material, and configured to collect light reflected from a body located on the transparent material, and a processor configured to process biometrics along with positioning of the body according to the light reflected from the body.

A vehicle interior component configured to present a user interface for a vehicle occupant with at least one vehicle system and/or network is disclosed. The component may comprise a housing, cover structure and user interface system configured to present the user interface at a cover surface. The user interface may comprise a light display configured to transmit light from a light source and/or an input device configured to interface with a sensor arrangement. The user interface may comprise output from the light display and/or input by interaction with the input device at the cover surface through the sensor arrangement. The component may comprise an interface module comprising the light display and the input device. The light display may comprise a light guide and/or display panel. The light guide may comprise a projection and/or icon configured to transmit light through an aperture and/or recess of the cover structure.

Provided are an electronic device and an operation method thereof according to embodiments. The electronic device according to an embodiment includes an optical module configured to radiate light to an object and to detect a distance to the object from the electronic device by using light reflected from the object. The electronic device further includes a processor configured to determine touch information and/or gesture information of the object based on information about the detected distance to the object.

A system receives signals indicating positions of a position indicator and indicating of a surface of a physical object. The system obtains a description of a portion of the surface of the physical object based on the signals indicating the positions of the position indicator and the surface of the physical object. The system also determines whether the position indicator is on or over the portion of the surface of the physical object based on the signals indicating the positions of the position indicator. Responsive to determining that the position indicator is on or over the portion of the surface of the physical object, the system obtains and stores coordinates corresponding to an input gesture based on the signals indicating the positions of the position indicator. Accordingly, the position indicator can be used as an input device while disposed on or over an arbitrary physical surface.