In an approach to an Internet of Things configuration using eye-based controls, one or more computer processors receive an initiation of eye control of one or more computing devices from a user. One or more computer processors identify an eye gaze direction of the user. Based on the identified eye gaze direction, one or more computer processors determine one or more target devices of the one or more computing devices. One or more computer processors determine one or more activities associated with the one or more target devices. One or more computer processors determine one or more eye control commands associated with the one or more activities. One or more computer processors display the one or more eye control commands associated with the one or more activities in the field of view of the user.

A set-top box with enhanced content and system and method for use of the same are disclosed. In one embodiment, a wireless transceiver is located within a housing, which also interconnectively includes a television input, television output, a processor, and memory. The set-top box may establish a pairing with a proximate wireless-enabled interactive programmable device having a display. Content, such music, for example, may be imported from the proximate wireless-enabled interactive programmable device and provided to the television. While the music is playing, the set-top box may generate and provide to the television a control signal that includes instructions to adjust the brightness of the television by dimming the television.

A remote control system and related method for controlling a video device are presented. The remote control system contains a plurality of buttons arranged in a grid pattern that correspond to user selectable options displayed on a display screen arranged in the same grid pattern. The user selects options on the screen by pressing the corresponding button on the remote control.

The present disclosure provides a device control method, which comprises capturing, by a portable device, a first image of a specific area containing a number of electronic devices connected to a communication network; transmitting a connection signal to a selected electronic device on a device list containing all the electronic devices connected to a communication network; determining whether the selected electronic device is in the first image captured based on whether a response has been received from the selected electronic device; identifying the selected electronic device on the device list and the relative position of the selected electronic device on the first image captured upon determined that the selected electronic device is in the first image; and continuing the device identification process until all the connected electronic devices on the device list has been verified, to identify the relative positions of all electronic devices contained in the first image.

The present invention relates to a method for contactlessly establishing a coupling between a medical apparatus (e.g., a hemodialysis apparatus or a peritoneal dialysis apparatus) and a remote control apparatus. An optical coupling signal is exchanged between the involved communication entities, in order to establish bijective, data-processing coupling between the remote control apparatus and the medical apparatus. Only after successful coupling is a remote control procedure initiated for remote control of the medical apparatus.

A control system for controlling at least one remote device includes a communication module for transmitting control instructions to the remote device; a processor unit for generating said control instructions and sending them to said communication module; and a user interface for detecting information from a user. The user interface includes at least one muscle activity sensor for detecting muscular activity information from the user by measuring the electrical activity of at least one of the user’s muscles, and the user interface generates muscular activity signals representative of detected muscular activity and sends them to the processor unit, and the processor unit generates the control instructions as a function of the muscular activity signals received by the processor unit.

In some embodiments, a device displays functionality information in response to receiving an indication of a first input for which a contact meets functionality display criteria. In some embodiments, a device generates a user interface that includes a navigation bar including images from different positions in a respective content item, and a representation of an adjacent content item. In some embodiments, a device moves a selection-indicator in a user interface by a predefined amount in response to receiving an indication of a first input that meets unitary movement criteria. In some embodiments, a device interprets movement of a contact of an input based at least in part on a grip of a user. In some embodiments, a device displays a plurality of character selection options when a text entry field is not tolerant of character ambiguity and a first input corresponds to a plurality of candidate characters.

A display method includes: based on at least one of first information obtained by a control device including a display and second information obtained by a device other than the control device, changing an image used as a basic screen that is displayed on the display and is for controlling a control target device other than the control device by a user (S12).

A user terminal apparatus is provided. The user terminal apparatus for performing a remote control function for an electronic apparatus includes a communication unit configured to communicate with an electronic apparatus for providing a text input user interface (UI), an input unit configured to receive a user command for input of a specific text on the text input UI, a fingerprint scanner provided in the input unit and configured to recognize a user fingerprint, and a controller configured to recognize a user fingerprint according to the user command and to transmit information corresponding to the recognized user fingerprint to the electronic apparatus in response to the electronic apparatus entering a preset text input mode.

A method performed by a controller device is provided. The method includes (a) connecting to a plurality of remote robotic vehicles over a wireless connection; (b) selectively controlling one of the plurality of remote robotic vehicles over the wireless connection; and (c) displaying, on a video screen of the controller device, a video stream received from the one remote robotic vehicle over the wireless connection. A corresponding method is provided to be performed by a robotic vehicle. Apparatuses, computer program products, and a system for performing the method(s) are also provided.