Abstract: Implementations disclose a single button mobile telephone using server-based call routing. A method of an implementation of the disclosure includes receiving, by a processing device, datasets from an apparatus worn by a user, wherein the datasets correspond to an event experienced by the user, in response to a signal to initiate a communication with the user, analyzing, by the processing device, the datasets to determine a type of the event, identifying, by the processing device, one of a plurality of destinations based on the analysis of the datasets and the determined type of the event, and routing, by the processing device, the signal to the identified destination.

Abstract: Methods, systems and apparatus for analyzing breathing of a user are disclosed. One method includes sensing motion of a first portion of the user, sensing motion of a second portion of the user, and generating a summed signal by inversely summing the sensed motion of the first portion of the user with the sensed motion of the second portion of the user. A breathing rate of the user is estimated based on the summed signal. Additionally, a breathing pattern of the user can be identified.

Abstract: A portable computing device may include a set of magnetic elements and a set of electrical contacts. An electronic device may include a sensor may also include a set of magnetic elements and a set of electrical contacts. The portable computing device may attach to the electronic device using the set of magnetic elements and may exchange data with the electronic device using the set of electrical contacts. A power source may also include a set of magnetic elements and a set of electrical contacts. The power source may couple with the portable computing device using the set of magnetic elements and may provide power to the portable computing device using the electrical contacts.

Abstract: A wearable device for detecting a user state is disclosed. The wearable device includes an accelerometer for measuring an acceleration of a user, a magnetometer for measuring a magnetic field associated with the user's change of orientation, a microphone for receiving audio, a memory for storing the audio, and at least one processor communicatively connected to the accelerometer, the magnetometer, the microphone, and the memory. The processor is identified to declare a measured acceleration as a suspected user state, and to categorize the suspected user state based on the stored audio as one of an activity of daily life (ADL), a confirmed user state, or an inconclusive event.

Abstract: An apparatus for identifying a type of motion and condition of a user is disclosed. One apparatus includes a motion detection sensor operative to generate an acceleration signature based on sensed acceleration of the user, and a controller. The controller is operative to determine what network connections are available to the motion detection device, match the acceleration signature with at least one of a plurality of stored acceleration signatures, wherein each stored acceleration signatures corresponds with a type of motion of the user, wherein the apparatus distributes at least some of the acceleration signature matching processing when processing capability is available to the motion detection device though available network connections, and identify the type of motion of the user and identify a condition of the user based on the matching of the acceleration signature.

Abstract: A user may carry a wearable device and may push a button on the wearable device to initiate a voice call. A computing system receives the request to initiate a voice call and may analyze datasets provided by the wearable device. The computing system may dynamically route voice calls to different destinations based on datasets received from a wearable device.