A method of operating a health tracking system includes utilizing user profile data for a user and health parameter data received from a health tracking device associated with the user to derive parameters relating to the user. The parameters are compared to tags associated with content pages or objects to determine a relevancy or match. Particular ones of a plurality of content pages or objects are selected for delivery to the user based on the comparison.

A peripheral device for use with a user terminal, the peripheral device comprising: a non-graphical actuator operable to be actuated by a user; an interface for connecting to the user terminal; and control logic for interfacing with the user terminal in order to control a communication client application running on the user terminal, and to thereby control a voice or video call that is conducted over a packet-based network from the user terminal using the communication client application. The control logic is configured such that the control of the call comprises performing a function in relation to the call in response to actuation of said hardware actuator by the user, and furthermore that the function of the actuation of the actuator is dependent on a current status of the call.

A method for transmitting content and an apparatus therefor are provided. The apparatus includes a transceiver configured to transmit content to an external source, a display configured to display receiver information about the content, and a user interface (UI) element, a memory configured to store identification information of the electronic apparatus, and at least one processor configured to generate a code comprising the identification information, based on a user input of selecting the UI element, receive the receiver information from an external device, and control the display to display the receiver information on the display. The electronic apparatus can use address information stored in the external device, without a separate communication setting with the external device that provides the receiver information.

Various systems, mediums, and methods may determine one or more configurations associated with a provider application. For example, a mobile system may determine a request to install a provider application, possibly based on one or more user inputs received by the mobile system. The mobile system may determine other applications installed on the mobile system. The mobile system may determine one or more configurations of the provider application based on the other applications installed. As such, the mobile system may install the provider application to the mobile system based on the one or more configurations determined.

An eco-system for tracking a user's physiological parameters comprises a central sensor and at least one remote sensor in wireless communication with the central sensor, a portable device readily accessible to the user, and a cloud platform. Each sensor may be worn by the user and measure data indicative of one or more of the physiological parameters. The central sensor may receive and process the measured data from each remote sensor and processes its own measured data. The portable device comprises a receiver wirelessly receiving the processed data and instructions from the central sensor; a processor running a mobile application handling the processed data and instructions; and a transmitter transmitting the processed data. The cloud platform receives the processed data from the transmitter; analyzes the received processed data; and transmits the results of the analysis to at least one of the portable device and an authorized healthcare entity.

Some embodiments include methods performed by a processor associated with a wireless communication device for enabling an unmanned autonomous vehicle (UAV) to operate in an automatic user tracking mode. Such embodiments may include capturing image data of surroundings by a camera while the UAV is operating in the automatic user tracking mode, calculating estimated position information for the wireless communication device based on captured image data, and transmitting estimated position information to the UAV for use in tracking a user of the wireless communication device. Some embodiments include methods performed by a processor of a UAV for enabling the UAV to automatically follow a user. Such embodiments may include calculating a current position of the UAV, receiving from a user's wireless communication device estimated position information derived from image data captured by a camera of the wireless communication device, and determining whether an update to the UAV motion is required.

A client is provided which is connectable to multiple mobile units while reducing or eliminating inconvenience to be given to a user. A client 2 is a client 2 which is connectable to multiple mobile units 3 and 4, and includes: a client output unit 25 configured to output information; a client communication unit 23 configured to perform communication; and an output controller 211. When connection is made to one mobile unit of the mobile units 3 and 4 through the client communication unit 23, the output controller 211 outputs pieces of mobile unit identification image information P1 to P8, M1 and M2 which can identify the connected mobile unit, on the basis of communication with the connected mobile unit, to the client output unit 25.

Systems for providing enhanced wireless communications and power at venues are provided. In one embodiment, the system includes a first communication device that receives audio from a user (such as a coach on a sideline), generates a wireless signal, and transmits the wireless signal to a second communication device via an antenna system (e.g., an antenna system mounted on an overhead camera) that relays the signal. The second communication device (which could be worn by a player during a sporting event) receives the wireless signal and plays the audio. In another embodiment, the wireless signal is broadcast to a plurality of communications devices worn by players. Also provided is a power and communication system for use at a seat at the venue, which provides power for a user's mobile device as well as wired and wireless network (e.g., Internet) connectivity at the seat.

A system and method for receiving a notification from a pet, such as a dog. The system includes a remote computer having a notification application loaded on a memory. The system further includes a pet unit having a press activator, a wireless transmitter and a processor. The processor transmits a signal to the remote computer via the wireless transmitter when the push activator is pushed by the pet. The signal activates the notification application to cause an alert to display on the remote computer.

A method and system for enabling access to an unmanned aerial vehicle are disclosed. The method includes receiving a request from a user for access to an unmanned aerial vehicle through a control system. The method further includes making a determination of whether to grant access to the control system. If the determination is made to grant access the control system then receiving alternate mission parameters for an alternate mission from the user. The method also includes making a decision about whether to implement the alternate mission based on a set of predetermined policies. If the decision is to implement the alternate mission then implementing the alternate mission and saving the alternate mission parameters.