There are provided systems, devices and methods for operating a housing for an electronic device as an input/output (I/O) device. In one embodiment, an electronic device includes a housing configured to function as an integrated housing and I/O device and one or more sensors obscured by a panel of the housing. The one or more sensors being configured to sense via the panel of the housing. The electronic device further includes a processing unit communicatively coupled to the one or more sensors and configured to interpret electrical signals generated by the one or more sensors. One or more output devices are communicatively coupled to the processing unit and configured to provide an output in response to the one or more sensors generating an electrical signal.

An electronic communications method includes receiving, by a device, electronic information. The electronic communications method further includes receiving, by the device, additional electronic information. A time period between receiving the electronic information and the additional electronic information is less than another time period between receiving the electronic information and the additional electronic information by using a standard keyboard.

A piezo haptic keyboard and touchpad user identification system may comprise a processor receiving an authenticating user input identifying an authorized user of the information handling system, and a controller operably connected to a plurality of piezo electric elements situated beneath the keyboard. The controller may detect haptic hardware typing or touch behavior parameters describing characteristics of a plurality of deformations of the piezo electric elements during interaction between the authorized user and the keyboard, and the processor may use machine learning to identify a repeated pattern of values for a combination of the haptic hardware typing or touch behavior parameters reoccurring during interaction between the authorized user and keyboard. The processor may associate the repeated pattern of values for the combination of the haptic hardware typing or touch behavior parameters with the authorized user for later, passive authentication of a user based on typing dynamics.

A piezo haptic keyboard and touchpad user identification system may comprise a processor receiving an authenticating user input identifying an authorized user of the information handling system, and a controller operably connected to a plurality of piezo electric elements situated beneath the keyboard. The controller may detect haptic hardware typing or touch behavior parameters describing characteristics of a plurality of deformations of the piezo electric elements during interaction between the authorized user and the keyboard, and the processor may use machine learning to identify a repeated pattern of values for a combination of the haptic hardware typing or touch behavior parameters reoccurring during interaction between the authorized user and keyboard. The processor may associate the repeated pattern of values for the combination of the haptic hardware typing or touch behavior parameters with the authorized user for later, passive authentication of a user based on typing dynamics.

User interface navigation on a personal electronics device based on movements of a crown is disclosed. The device can select an appropriate level of information arranged along a z-axis for display based on crown movement. The navigation can be based on an angular velocity of the crown.

This application discloses a wireless keyboard. The wireless keyboard includes a connection portion. The connection portion includes an accommodating cavity with an opening at an end and used for accommodating an electronic stylus. A wireless charging coil is arranged in the accommodating cavity. A charging interface and a wireless charging control module are arranged in the wireless keyboard. The wireless charging control module is connected to the charging interface and the wireless charging coil. The charging interface can receive a direct current signal. The wireless charging control module can convert, if it is detected that a direct current signal is inputted to the charging interface, the direct current signal into an alternating current signal and transmit the alternating current signal to the wireless charging coil. The wireless charging coil generates an alternating electromagnetic field in response to the alternating current signal, to wirelessly charge the electronic stylus.

An electronic device includes: a display; a memory storing an input pattern comprising a plurality of emojis; and a processor operatively connected to the display and the memory. The processor is configured to: display, in the display, a user interface comprising (i) an input field and (ii) a recommendation field comprising a plurality of recommendation areas; detect a first input that selects a first emoji from the plurality of emojis, the first emoji being displayed in a first recommendation area of the plurality of recommendation areas; output the first emoji to the input field based on the detected first input; and replace an item displayed in the first recommendation area with a second emoji subsequent to the first emoji in the input pattern.

An electronic device includes: a display; a memory storing an input pattern comprising a plurality of emojis; and a processor operatively connected to the display and the memory. The processor is configured to: display, in the display, a user interface comprising (i) an input field and (ii) a recommendation field comprising a plurality of recommendation areas; detect a first input that selects a first emoji from the plurality of emojis, the first emoji being displayed in a first recommendation area of the plurality of recommendation areas; output the first emoji to the input field based on the detected first input; and replace an item displayed in the first recommendation area with a second emoji subsequent to the first emoji in the input pattern.

Disclosed are techniques for extracting, identifying, and consuming imprecise temporal elements (“ITEs”). A user input may be received from a client device. A prediction may be generated of one or more time intervals to which the user input refers based upon an ITE model. The user input may be associated with the prediction, and provided to the client device.

Various implementations disclosed herein include devices, systems, and methods that determine whether to provide a response based on the characteristic associated with the use of an input sensor (e.g., a keyboard). For example, an example process may include obtaining sensor data from a first sensor of the one or more other sensors, wherein the first sensor is separate from the input sensor, and the sensor data is associated with use of the input sensor by a user, assessing a characteristic associated with the use of the input sensor based on the sensor data, and determining whether to provide a response based on the characteristic associated with the use of the input sensor, the response updating the input sensor with a personalized setting or providing personalized content (e.g., feedback or autocomplete) to the user regarding input sensor use.