Various systems, methods and apparatus are described, such as for engaging a touchscreen user interface. A first example includes a multi-function transceiver device having comprehensive and scalable mapping capabilities for use in a control environment. A second example includes a or the multi-function transceiver device being further equipped to perform specialized functions, such as Internet-based information-kiosk-type function(s). A third example includes a or the multi-function transceiver device, which may be Internet-connected, capable of being wirelessly and remotely controlled by a user via an app (e.g., via a teleoperation comprising a tablet, smartphone or mobile device (having said app)). A fourth example includes an apparatus performing one or a series of mechanical gestures (mechanical touch-induced control operations—such as single-touch, multi-touch, etc.) on a display screen and/or a user interface (UI). A fifth example includes technology that can turn any surface into touch-enabled controls for (wirelessly) controlling UIs, apps, etc. These are just some examples (as non-limiting embodiments).

Various systems, methods and apparatus are described for actuating a touchscreen user interface. A first exemplification comprises an intermediary-transceiver or mediating device; wherein said device is wirelessly capable of providing a scalable mapping interface to a touchscreen user environment. A second exemplification includes one or more conductive interfaces that are operatively coupled with a touchscreen device using at least one of a wireless interface and a conductive actuator at endpoint. Beyond the first and second exemplification above, other exemplary control modalities are also advanced and embodied by the inventor of the present invention.

A computer system can be controlled with non-contact inputs through zonal control. In an embodiment, a non-contact input that is an eye-tracking device is used to track the gaze of a user. A computer's display, and beyond, can be separated into a number of discrete zones according to a configuration. Each zone is associated with a computer function. The zones and/or their functions can, but need not, be indicated to the user. The user can perform the various functions by moving gaze towards the zone associated with that function and providing an activation signal of intent. The activation signal of intent can be a contact-required or non-contact action, such as a button press or dwelling gaze, respectively.

A fingerprint sensing system. The fingerprint sensing system includes: at least one sensor; at least one display device; at least one application processor; and at least one secure enclave processor. The application processor(s) receives fingerprint data from the sensor(s) and provides the fingerprint data to the secure enclave processor(s). The secure enclave processor(s) decodes the fingerprint data and provides a signal indicative of at least one matched node. The application processor(s), responsive to receipt of the signal indicative of the matched node(s), presents at least a portion of a synthetic fingerprint image via at least one display device corresponding to the matched node(s).

An information processing device includes: a first chassis and a second chassis connected to be rotatable relative to each other; a foldable one display provided over the first chassis and the second chassis; a camera provided in the first chassis; a memory which stores at least a program; and a processor which executes the program. By executing the program stored in the memory, the processor performs: display mode switching processing to switch between a first display mode in which display is controlled by setting a screen area of the display as one display area, and a second display mode in which display is controlled by splitting the screen area of the display into two display areas of a first display area corresponding to the first chassis and a second display area corresponding to the second chassis, orientation detection processing to detect an orientation of the screen area.

An information processing device includes: a foldable one display; a memory which stores at least a program; and a processor which executes the program stored in the memory. By executing the program stored in the memory, the processor performs: display mode switching processing to switch between a first display mode in which display of a screen area of the display is controlled as one display area, and a second display mode in which the screen area of the display is split into two display areas of a first display area and a second display area to control the display; information holding processing to hold window information about position and size, in the screen area, of a window of each application running in the first display mode; and display control processing to display the window of the running application in the screen area.

A digital input device includes a sensor that detects an electronic pen and outputs coordinates according to positions pointed by the electronic pen, a display device, an operation button, a processor, and a storage device storing a program that causes the digital input device to: display, on the display device, a predetermined template according to a format indicated by template data and inputted information according to the position pointed by the electronic pen and received via the sensor; provide timepoint information at each timepoint, generate pieces of time-series data based on the timepoint information provided at each timepoint, each of the pieces of the time-series data including: a timepoint value indicated by the timepoint information, coordinate values indicated by the coordinates output from the sensor, a writing pressure value, and a button status value; and store answer information and correction information in association with the template data indicating the format.

An electronic device, in response to an input directed to a first user interface displays a second user interface, and in response to continuously detecting a contact on a button while displaying the second user interface, including detecting an increase in a characteristic intensity of the contact above a first intensity threshold, displays a beginning of a transition from the second user interface back to the first user interface. If the contact on the button is part of an input sequence that meets first criteria, the device ceases to display the second user interface and redisplays the first user interface on the display; and if the input sequence meets second criteria, the device reverses the beginning of the transition from the second user interface back to the first user interface, and redisplays the second user interface on the display.

In one or more embodiments, one or more systems, one or more methods, and/or one or more processes may provide, by a first application executed by an information handling system (IHS), configuration information to a keyboard; configure, by the keyboard, a display of the keyboard with a graphic based at least on the configuration information; receive, by the keyboard, first user input associated with the graphic; provide, by the keyboard, first keyboard information to the IHS; provide, by the IHS, the first keyboard information to a second application executed by the IHS; receive, by the first application, second user input; provide, by the first application, information based at least on the second user input to the keyboard; provide, by the keyboard to the IHS, second keyboard information based at least on the information; and provide, by the IHS, the second keyboard information to the second application.

A display system that smoothly switches input from one input device to input from another input device when a plurality of display devices include respective input devices. The display system includes a first display device and a second display device. The first display device includes a first display unit, a first controller, and a first input device. The second display device includes a second display unit, a second controller, and a second input device. The first display unit displays a first image outputted from at least one first computer. The second display unit displays a second image outputted from at least one second computer. The first controller receives input of first information outputted from the first input device for operating the first and second computers. The second controller receives input of second information outputted from the second input device for operating the second computer.