A display apparatus is provided. The display apparatus includes a first communicator connected to a remote controller, a second communicator connected to an external device, a display, a memory, and a processor configured to control, based on a UI display command for key setting of the remote controller being received from the external device through the second communicator, based on UI data stored in the memory, the display to display a UI screen including a touchpad image and a plurality of keys of the remote controller, and based on at least one key among the plurality of keys on the UI screen being moved onto the touchpad image, respectively, according to a user operation input through the external device, transmit key information of the at least one key and a moved position of each of the at least one key to the remote controller through the first communicator.

A system is disclosed that includes a ball-throwing machine included within a first housing, a controller communicatively coupled to the ball-throwing machine and included within a second housing different than the first housing, a camera, and a non-transitory storage medium having stored thereon logic, the logic being executable by one or more processors to perform operations including: receiving information associated with a selection of a first training drill from the controller, responsive to receiving the information associated with the selection of the first training drill, causing the ball-throwing machine to impart motion to one or more balls in accordance with the first training drill, receiving multimedia data of a player captured by the camera, and performing a player recognition procedure to locate the player within the multimedia data.

Techniques are described herein that enable advanced gaming and virtual reality control using radar. These techniques enable small motions and displacements to be tracked, even in the millimeter or submillimeter scale, for user control actions even when those actions are optically occluded or obscured.

A system includes: a terminal that is capable of executing a plurality of programs; and a target apparatus that is capable of communicating with the terminal. The target apparatus includes: an acceptance unit that receives a specific operation; and a transmission unit that transmits trigger information to the terminal upon the acceptance unit receiving the specific operation. The terminal includes: a receiving unit that receives the trigger information from the transmission unit; a selection unit that selects a program corresponding to the target apparatus from the plurality of programs upon the receiving unit receiving the trigger information; and a processing unit that performs processing corresponding to the selected program.

A wireless control device includes a power source, one or more sensors, one or more switches, a wireless transceiver circuit, an antenna connected to the wireless transceiver circuit, and a processor communicably coupled to the power source, the one or more sensors, the one or more switches, and the wireless transceiver circuit. The processor receives a data from the one or more sensors or the one or more switches, determines a pre-defined action associated with the data that identifies one or more external devices and one or more tasks, and transmits one or more control signals via the wireless transceiver circuit and the antenna that instruct the identified external device(s) to perform the identified task(s).

A display apparatus, a terminal apparatus, and controlling methods are provided. The display apparatus includes: a communicator to communicate with a terminal apparatus or a relay server in order to receive collected status information about at least one peripheral device from the terminal apparatus, a display unit to display a user interface (UI) screen; and a controller to generate a control UI for controlling the at least one peripheral device or a security UI for monitoring a peripheral space through the at least one peripheral device based on the status information about the at least one peripheral device and based on whether a communication with the terminal apparatus is possible, thereby controlling a home device t in real time according to a communication status with the terminal apparatus.

An EPF digital record transmission system may be configured to transmit an EPF digital record from an EPF device to a user device. The user device may then transmit the EPF digital record to a host server for storage and processing. The EPF device may also be configured to transmit health data and the user device may be configured to analyze one or both of the health data and the EPF digital record and present a health recommendation.

A wearable electronic device and method are disclosed. The wearable electronic device includes a short-range communication circuit, memory, display and a processor. The processor implements the method, including: establishing a first communicative connection to a first external electronic device, via a short-range communication circuit, receiving, via the short-range communication circuit, from the first external electronic device, first information related to a second external electronic device that is communicatively connected to the first external electronic device through a second communicative connection, displaying, on a display, at least a portion of the received first information, and transmitting, via the short-range communication circuit, to the first external electronic device, a control command for the second external electronic device, based on receiving a user input to information displayed on the display.

Embodiments are directed to communicating with and controlling operation of electronically-controlled appliances. In one scenario, a computer system receives a first input from a computing system indicating that an electronically-controlled appliance is permitted to communicate with a cloud computing platform. The computer system generates a notification that is to be sent to a software application, where the software application is configured to control functions of the electronically-controlled appliance. The computer system transmits the generated notification to the software application, where the generated notification indicates that the cloud computing platform is communicably connected to the electronically-controlled appliance. The computer system then receives a second input from the software application indicating that specified functions are to be performed on the electronically-controlled appliance, and transmits instructions to the electronically-controlled appliance to perform the specified functions. These functions are then interpreted and carried out by a hardware controller on the electronically-controlled appliance.

A first remote control application is configured to cause a smart device to transmit at least one command for controlling at least one functional operation of a controllable appliance in response to a user interface element of the smart device being activated while a second remote control application of a bridge device is configured to cause the bridge device to transmit at least one command for controlling at least one functional operation of the controllable appliance in response to receiving at the bridge device the at least one command transmitted from the smart device. The at least one command is transmitted from the smart device using a first transmission protocol and the at least one command is transmitted from the bridge device using a transmission protocol recognized by the controllable appliance.