A cover plate and a manufacturing method thereof, an electronic device are disclosed. The cover plate includes an operation area, the operation area includes an identification area and a non-identification area, the cover plate includes a contact surface, the contact surface includes a first contact surface and a second contact surface, the first contact surface is in the identification area, the second contact surface is in the non-identification area, and the first contact surface and the second contact surface have different contact properties.

The present disclosure provides an optical sensing device, including: a storage circuitry being coupled to a charging circuitry, a photosensitive circuitry, and a voltage-readout circuitry, the storage circuitry storing a voltage value; the charging circuitry being coupled to the storage circuitry for charging the storage circuitry; the photosensitive circuitry being connected to a first terminal for discharging the storage circuitry to the first terminal; and the voltage-readout circuitry being connected to the storage circuitry, for reading the voltage value of the storage circuitry.

The present disclosure provides an optical sensing device, including: a storage circuitry being coupled to a charging circuitry, a photosensitive circuitry, and a voltage-readout circuitry, the storage circuitry storing a voltage value; the charging circuitry being coupled to the storage circuitry for charging the storage circuitry; the photosensitive circuitry being connected to a first terminal for discharging the storage circuitry to the first terminal; and the voltage-readout circuitry being connected to the storage circuitry, for reading the voltage value of the storage circuitry.

Systems to accurately position an instrument includes an instrument with an interest point, an optical sensing system having a camera and a sensor coupled to a surface of the instrument, a motion detector, and a processor. The optical sensing system collects a set of optically-sensed positional data points. The motion detector collects a set of motion-sensed positional data points. The processor applies a correction function on the set of optically-sensed positional data points and on the set of motion-sensed positional data points to provide a set of corrected positional data points.

A method of implicitly grouping annotations with a document includes with a projection device, projecting an image of a document onto a touch sensitive pad. The method further includes receiving a number of user-input annotations to the document, and with a processor, implicitly associating the annotations with the document without receiving selection of an annotation grouping mode from a user.

Examples disclosed herein relate to a mat characteristic to process images. Examples include to acquire an image of a mat from a camera in a computing device; to process the image according to the mat characteristic in the computing device; and to display the processed image.

According to one example for capturing three-dimensional data of an object, illumination of an object is initiated, the object is scanned with a sensor, and a 3D representation of the object is created. Illumination of the object may comprise illumination of a surface of the object within a field of view of the sensor.

According to one example for capturing three-dimensional data of an object, illumination of an object is initiated, the object is scanned with a sensor, and a 3D representation of the object is created. Illumination of the object may comprise illumination of a surface of the object within a field of view of the sensor.

A system includes an image capturing device, a user input device, and a processor coupled to the image capturing device and user input device. The processor includes instructions for capturing a data image with the image capturing device. The data image includes a signal from the user input device. The processor further includes instructions for deactivating the signal from the user input device and, after deactivating the signal from the user input device, capturing an ambient image. The processor further includes instructions for subtracting the ambient image from the data image and determining a position of the user input device in a three-dimensional space using a result of the subtracting.

Systems and methods of multi-modal control of a touch-based device include receiving multi-modal control inputs from one or more of voice commands, a game controller, a handheld remote, and physical gestures detected by a sensor; converting the multi-modal control inputs into corresponding translated inputs which correspond to physical inputs recognizable by the touch-based device; and providing the corresponding translated inputs to the touch-based device for control thereof, wherein the translated inputs are utilized by the touch-based device as corresponding physical inputs to control underlying applications executed on the touch-based device which expect the corresponding physical inputs.