Distributed wearable and non-wearable devices, controllers and methods for processing information from a plurality of devices are provided. A distributed system includes a plurality of devices distributed in an environment. Each device has at least a communication capability for interchanging information with others of the devices and/or with a communication system. Each of at least some of the devices has one or more sensors for acquiring sensor data related to the environment proximate to the device. At least one of the communication system or one or more of the devices is configured as a controller configured to: select a subset of devices from among the plurality of devices, receive information based on the acquired sensor data of the selected subset, and combine the received information from the selected subset to determine a characteristic of the environment proximate to one or more of the devices.

In response to detecting that an external device is within communication range of an electronic device and in accordance with a determination that the external device is in a pairing mode, the electronic device displays an affordance corresponding to a pairing application of the electronic device. In response to detecting that an external device is within communication range of an electronic device and in accordance with a determination that the external device is not in the pairing mode, the electronic device forgoes display of the affordance. In response to user input corresponding to selection of the affordance, the electronic device displays a user interface associated with initiating a process to pair the electronic device and the external device.

A second device comprises at least one ADC. The ADC(s) are configured to receive a composite analog signal. The composite analog signal comprises a plurality of modulated signals. Each signal in the modulated signals has been modulated to a distinct center frequency. Each signal in the modulated signals has originated from a sensor. At least two of the signals in the modulated signals comprise a plurality of frequency components. The ADC(s) are configured to convert the modulated signals into a digital signal. The second device comprises at least one control unit. The control unit(s) are configured to receive the digital signal. The control unit(s) are configured to perform: band pass filtering, frequency demodulation, and extraction of the signals sensed by the sensors.

An electronic device may include: a first housing; a second housing coupled to the first housing via at least a connection member; at least one sensor; a communication circuit; a flexible display disposed across one surface of the first housing and one surface of the second housing; a memory; and a processor operatively connected to the at least one sensor, the communication circuit, the flexible display, and the memory, wherein the processor may establish short-range wireless communication connection with a wearable device via at least an existing communication circuit, enter a flex mode on the basis of the angle between the first housing and the second housing, use the short-range wireless communication connection to receive, from the wearable device, first user activity information acquired by the wearable device, acquire second user activity information via at least the at least one sensor in response to the received first user activity information satisfying a predetermined condition, acquire user context information on the basis of the first user activity information and the second user activity information, and provide content corresponding to the acquired user context information via at least the flexible display.

The present disclosure describes devices, systems, and methods that can be used to collect sensor data from, for instance, a sensor device that has been embedded in an article of apparel. The sensor device can be used, for instance, to monitor the athletic activity of an individual wearing the apparel into which the electronic device has been embedded. Embodiments of the sensor device include a memory, a wireless interface, and one or more processor. With these elements, the sensor device may receive instructions indicating what sensor data to collect, collect the sensor data, store the sensor data, and transmit the stored sensor data to the remote device upon completion of the activity.

A wearable device that communicates with a host device can be used to initiate a communication functionality of the host device (e.g., telephone calls, text messages). The wearable device can obtain user input indicating a recipient of the communication and in some instances content for the communication and can provide an instruction to the host device. The host device can use the indicated recipient and content to initiate communication and where applicable to send the content. Recipients and/or content can be selected from predefined lists available on the wearable device.

Systems, apparatuses, and methods are described for controlling vibrations output by one or more computing devices. A plurality of computing devices may form an ad hoc group using vibration signals. A computing device may suspend generation of a tactile vibration and/or sound as a notification of a received communication or other event.

The present invention relates to a smartphone interface device for phototherapy which performs communication with a smartphone by using a micro controller unit (MCU) installed in the smartphone interface device for phototherapy and a universal serial bus on-the-go (USB OTG) module, and is capable of controlling a light beam irradiator more stably to enable the light beam irradiator to be driven. The present invention pertains to a smartphone interface device for phototherapy comprising: a micro controller unit (MCU) for receiving, from a smartphone, light beam irradiation intensity, light beam irradiation time, light beam irradiation pattern, and light beam irradiation start and end-relevant light beam irradiating electrode control commands, and generating a light source drive control signal according to the received light beam irradiating electrode control commands; a universal serial bus on-the-go (USB OTG) module; a voltage regulator; and a light beam irradiation drive unit.

The present invention relates to the control and operation of cellular telephones and other electronic devices, and particularly to improvements in the functionality of those devices for use in conjunction with a variety of sports and recreational activities.

Provided are a wearable personal digital device and related methods. The wearable personal digital device may comprise a processor, a display, biometric sensors, activity tracking sensors, a memory unit, a communication circuit, a housing, an input unit, a projector, a timepiece unit, a haptic touch control actuator, and a band. The processor may be operable to receive data from an external device, provide a notification to a user based on the data, receive a user input, and perform a command selected based on the user input. The communication circuit may be communicatively coupled to the processor and operable to connect to a wireless network and communicate with the external device. The housing may be adapted to enclose the components of the wearable personal digital device. The band may be adapted to attach to the housing and secure the wearable personal digital device on a user body.