Disclosed herein is a biometric skin-contact sensor comprising: a contact sensing area comprising an array of pixels, each pixel comprising a thin film transistor and a capacitive sensing electrode for sensing contact; and a controller coupled to the contact sensing area and configured to operate the array of pixels to switch between a low resolution mode and a high resolution mode. In the low resolution mode the sensor is operable to obtain contact location data comprising an indication of a sub-region of the contact sensing area in which contact is sensed. In the high resolution mode the sensor is operable to obtain biometric data for skin interacting with the contact sensing area by identifying a difference in capacitance between valleys and ridges of the skin.

An aspect of authenticating a user via a processing system includes receiving, at an input device of the processing system, an input gesture corresponding to an explicit assertion of user intent with respect to a function to be performed on the processing system; and simultaneously authorizing and authenticating the user, with respect to the function, from data acquired from the input gesture.

A fingerprint sensor system and method is provided for enhancing biometric security. Fingerprints may be recorded according to a particular sequence and orientation. Fingerprint sequences may then be used to control the operation of devices, such as restricting content, or encrypting communications.

The present disclosure provides a pixel structure comprising a plurality of layers for providing a touch sensitive pixel of a sensing array. The layers comprising: a thin film transistor; and a conductive layer deposited on a dielectric shield to be touched by an object to be sensed and arranged to provide a capacitive sensing electrode coupled to the thin film transistor. The present disclosure also provides methods of manufacturing such a pixel structure.

Disclosed herein is a pointing device for controlling the position of a pointer in a graphical user interface, GUI, of a computer. The device comprises: an operation interface for sensing operation by an operator of the device for controlling the pointer in the GUI, and a biometric skin-contact sensor configured to obtain biometric identifier data, for identifying the operator, by sensing contact of surface contours of the operator's skin. The biometric skin-contact sensor is a contact surface of the operation interface configured to obtain the biometric identifier data during the operation to control the pointer.

The current disclosure provides a stylus module that includes a stylus and a touch panel. The stylus has a pen point structure, and the touch panel has a touch area and a display area. The touch area of the touch panel is configured to be in contact with the pen point structure of the stylus for receiving a touch signal from the stylus, and the display area of the touch panel is configured to display at least a status property of the stylus. The touch panel of the stylus module provided by the current disclosure may directly display the at least one status property of the stylus on the display area according to the touch signal received from the pen point structure of the stylus.

A wireless input component and an operation method thereof are provided. The wireless input component includes a wireless reception device and a peripheral input device. The wireless reception device includes a connection interface, a storage device and a processor. The connection interface is connected to a first host. The storage device is configured to record operation parameter information of the first host. The processor connects the connection interface and the storage device and is configured to control the storage device. The communication device connects the processor. The peripheral input device includes an input device and a transmission device. The input device is configured to generate an input signal. The transmission device connects the input device and is connected to the communication device through a wireless communication path and configured to transmit the input signal to the communication device of the wireless reception device.

In accordance with some embodiments, systems, apparatus, interfaces, methods, and articles of manufacture are provided for ascertaining aspects of a user, such as the user's identity, competence, health, and state of mind. In various embodiments, data is captured about a user via a headset worn by the user. Based on the data, a determination may be made about an aspect of the user, and the user may accordingly be granted or denied access to a resource.

A wireless input component and an operation method thereof are provided. The wireless input component includes a wireless reception device and a peripheral input device. The wireless reception device includes a connection interface, a storage device and a processor. The connection interface is connected to a first host. The storage device is configured to record operation parameter information of the first host. The processor connects the connection interface and the storage device and is configured to control the storage device. The communication device connects the processor. The peripheral input device includes an input device and a transmission device. The input device is configured to generate an input signal. The transmission device connects the input device and is connected to the communication device through a wireless communication path and configured to transmit the input signal to the communication device of the wireless reception device.

Aspects of the disclosure relate to managing enterprise security by utilizing a smart keyboard and a smart mouse. The smart keyboard may include pressure sensitive keys, a physical sensor configurable to detect a user characteristic associated with a user of the smart keyboard, an image capturing device configurable to capture an image of an activity in a vicinity of the smart keyboard, and a switch, communicatively coupled to the pressure sensitive keys, the physical sensor, and the image capturing device, where the switch is configurable to activate or deactivate the pressure sensitive keys, the physical sensor, and the image capturing device. The smart mouse may include a wheel, one or more pressure sensitive clickable components, and at least one physical sensor configurable to detect a user characteristic associated with a user of the smart mouse. Systems and methods for utilizing a smart keyboard and a smart mouse are also disclosed.