The present disclosure relates to an interactive projection input and output device, which includes: a projecting module, configured to display a screen mirroring content from an external device in a projection region of a projection picture corresponding to the external device; a coordinated operation capturing module, configured to: determine a first coordinate of a user coordinated operation point corresponding to a user coordinated operation behavior in a first coordinate system; a coordinated instruction generating module, configured to, generate a position information instruction according to the first coordinate of the user coordinated operation point and regional position information of the projection region in the first coordinate system; and a wireless transmission module, configured to receive screen mirroring information from the external device, and send the position information instruction to the external device, so as to operate the external device.

The present disclosure relates to an interactive projection input and output device, which includes: a projecting module, configured to display a screen mirroring content from an external device in a projection region of a projection picture corresponding to the external device; a coordinated operation capturing module, configured to: determine a first coordinate of a user coordinated operation point corresponding to a user coordinated operation behavior in a first coordinate system; a coordinated instruction generating module, configured to, generate a position information instruction according to the first coordinate of the user coordinated operation point and regional position information of the projection region in the first coordinate system; and a wireless transmission module, configured to receive screen mirroring information from the external device, and send the position information instruction to the external device, so as to operate the external device.

A method, system, apparatus, and/or device for sensing an input in an augmented reality construct. The method, system, apparatus, and/or device may include a mixed-reality device, comprises memory and one or more processors communicatively coupled to a sensor, a touch device, and a display device that is at least partially transparent and configured to display a virtual object. The store instructions executable by the one or more processors to generate virtual object data for displaying a virtual object by the display device; output the virtual object data to the display device; receive, from the sensor, interaction data corresponding to a free-space interaction by a hand of a user with the virtual object; generate touch input data based on the interaction data; and output the touch input data to the touch device.

A touch panel control circuit and a touch panel. The touch panel control circuit includes a touch transfer module, a main chip and a signal source interface. An input interface (A) of the touch transfer module is configured to be connected to an output interface of a touch input device to receive a first touch coordinate signal form the output interface of the touch input device. A first transmission interface of the touch transfer module is connected to a touch information transmission interface (E) of the main chip. A second transmission interface (B2) of the touch transfer module is connected to the signal source interface. The touch transfer module is configured to receive, via the first transmission interface (B1), a signal distribution instruction from the touch information transmission interface (E) of the main chip, and to send, based on the signal distribution instruction, a second touch coordinate signal corresponding to the first touch coordinate signal, from at least one of the first transmission interface (B1) and the second transmission interface (B2).

A touch panel control circuit and a touch panel. The touch panel control circuit includes a touch transfer module, a main chip and a signal source interface. An input interface (A) of the touch transfer module is configured to be connected to an output interface of a touch input device to receive a first touch coordinate signal form the output interface of the touch input device. A first transmission interface of the touch transfer module is connected to a touch information transmission interface (E) of the main chip. A second transmission interface (B2) of the touch transfer module is connected to the signal source interface. The touch transfer module is configured to receive, via the first transmission interface (B1), a signal distribution instruction from the touch information transmission interface (E) of the main chip, and to send, based on the signal distribution instruction, a second touch coordinate signal corresponding to the first touch coordinate signal, from at least one of the first transmission interface (B1) and the second transmission interface (B2).

A fingerprint module and a display device are provided. The fingerprint module includes a substrate, a plurality of fingerprint identification components, a fingerprint chip, and a plurality of metal wires. The substrate has an identification area configured to identify a fingerprint and a non-identification area located at a periphery of the identification area. The fingerprint identification components are disposed in the identification area of the substrate. The fingerprint chip is disposed in a non-identification area of the substrate. Each of the fingerprint identification components is electrically connected to the fingerprint chip through a corresponding metal wire.

A fingerprint sensing display panel includes a flexible substrate, a light sensing layer, a thin film transistor layer, an organic light-emitting diode layer, and a thin film encapsulation layer. The light sensing layer is disposed on the flexible substrate. Sensitivity of the light sensing layer set at high sensitivity. The organic light-emitting layer is disposed on the thin film transistor layer and configured to generate light according to an emitting signal from the thin film transistor layer. The thin film encapsulation layer is disposed on the organic light-emitting layer and configured to protect the organic light-emitting layer. When a user puts a finger on the fingerprint sensing display panel, the light sensing layer detects light generated from the organic light-emitting layer and reflected by the finger. By utilizing the fingerprint sensing display panel of the present disclosure, fingerprint recognition can be achieved without installing extra fingerprint recognizing components.

A floating touch display device and a floating touch method are provided. The floating touch display device includes a display layer, a protective cover, light emitting units, and light receiving units; the protective cover includes a first region and a second region surrounding the first region; the display layer is disposed under the first region; the light emitting units and the light receiving units are sequentially arranged under the second region. Each of the light emitting units corresponds to one light receiving unit. The floating touch is realized, by a light emitting unit transmitting an optical signal toward a direction above the protective cover and a corresponding light receiving unit of the light emitting unit that receives the optical signal reflected by a touch object above the protective cover. Such a design can extend a touch range of the floating touch and improve user experience.

A method of processing of a sequence of video frames from a camera capturing a writing surface for subsequent transmission to at least one of a remote videoconferencing client and a remote videoconferencing server. The method comprises receiving the sequence of video frames from the camera; and selecting an image area of interest in the video frames, comprising selecting one of a sub-area of the video frames and an entire area of the video frames. The method also comprises, for each current video frame of the sequence of video frames, generating a pen stroke mask by applying adaptive thresholding to the image area of interest. The method also comprises generating an output video frame using the pen stroke mask. Corresponding systems and computer readable media are disclosed.

A touch display device and manufacturing method thereof, and the touch display device includes a display panel, a touch panel, an optical clear adhesive layer, a diffuse reflection film layer, and a cover plate. The touch panel is disposed on a surface of a side of the display panel; the optical clear adhesive layer is disposed on a surface of a side of the display panel away from the touch panel, and the optical clear adhesive layer encircles to form a vacuum region close to an edge of the touch panel; the diffuse reflection film layer is disposed in the vacuum region; and the cover plate is disposed on a surface of a side of the optical clear adhesive layer and the diffuse reflection film layer away from the display panel.