Extended band system

We claim: 1. An extended band system comprising: a body-worn device including at least one sensor and a communication mechanism; a host device paired with the body-worn device, the host device and the body-worn device maintaining a continuous low-bandwidth connection; a plurality of sensors, implemented in the body-worn device and/or the host device; the extended band system providing an improved monitoring of the user's states and a rich feedback mechanism; each of the host device and the body-worn device provide for a plurality of user input, processing of the user's states, and user output; and the extended band selecting one or both of the host device and the body-worn device to provide the user input, the processing, and the user output, based on status factors of the host device and the body-worn device, the status factors consisting of at least two of sensor data volume, connection cost, connection quality, richness of output, and power level. 2. The extended band system of claim 1 further comprising: a pairing system to pair the body-worn device and the host device; and a communication logic to establish a low-power connection between the body-worn device and the host device to enable sharing of data between the host device and the body-worn device. 3. The extended band system of claim 2 , wherein the communication logic is further to determine one or more types of connections supported by both the body-worn device and the host device, select a lowest power consumption connection type, and identify a lowest power consumption connection pattern, based on the connection type chosen; wherein the connection between the body-worn device and the host device uses the lowest power consumption connection type and the lowest power consumption connection pattern. 4. The extended band system of claim 1 , further comprising: an extended band sharing system to share sensor data between the body-worn device and the host device; and sensor processing system to analyze the sensor data to determine the user's state and identify user state changes. 5. The extended band of claim 1 , further comprising: a communication logic to determine when the continuous low-bandwidth connection between the body-worn device and the host device is dropped; and a band power control system temporarily turning off the communication mechanism of the band when the connection is dropped, to save power. 6. The extended band of claim 5 , further comprising: the band power control system further to turn on the communication logic when a qualifying event happens, the qualifying event comprising one or more of: a timer expiring, a notification to the user being generated, a status change detected; and the communication logic to attempt to reestablish the connection between the body-worn device and the host device. 7. The extended band of claim 1 , further comprising: a finder to trigger an alert on one of the devices in the extended band, from the other device in the extended band to enable finding a misplaced device. 8. The extended band of claim 1 , further comprising: a help mode system to automatically connect the user to an emergency line, when help mode is invoked, the help mode using a combination of the body-worn device and the host device to enable the user to communicate with the emergency line. 9. The extended band of claim 1 , further comprising: a social network connector to automatically share status updates, the sharing comprising sending the status updates to one or more of: a social media network of the user, a friend of the user who also has the application, and a third party. 10. The extended band system of claim 1 , wherein the status factors consist of all of: sensor data volume, connection cost, connection quality, richness of output, and power level. 11. A method of providing an extended band comprising: pairing a body-worn device and a host device; establishing a low-power connection between the body-worn device and the host device; monitoring a user's status with a plurality of sensors; determining that data should be presented to the user, based on the user's status; determining one or both of the body-worn device and the host device to use to output the data to the user; providing for a plurality of user input, processing of the user's states, and user output through each of the host device and the body-worn device; and selecting one or both of the host device and the body-worn device to provide the user input, the processing, and the user output, based on status factors of the host device and the body-worn device, the status factors consisting of at least two of sensor data volume, connection cost, connection quality, richness of output, and power level. 12. The method of claim 11 , wherein the plurality of sensors are located in the body-worn device, the method further comprising: sharing the sensor data with the host device; and analyzing the sensor data to determine a user's state and identify user state changes. 13. The method of claim 11 , further comprising: determining one or more types of connections supported by both the body-worn device and the host device; and selecting a lowest power consumption connection type; and identifying a lowest power consumption connection pattern, based on the connection type chosen; wherein the connection between the body-worn device and the host device uses the lowest power consumption connection type and the lowest power consumption connection pattern. 14. The method of claim 11 , further comprising: determining when a connection between the body-worn device and the host device is dropped; and temporarily turning off the communication system of the band when the connection is dropped, to save power. 15. The method of claim 14 , further comprising: turning on the communication system when a qualifying event happens, the qualifying event comprising one or more of: a timer expiring, a notification to the user being generated, a status change detected; and attempting to reestablish the connection between the body-worn device and the host device. 16. The method of claim 11 , further comprising: triggering an alert on one of the devices in the extended band, from the other device in the extended band to enable finding the misplaced device. 17. The method of claim 11 , further comprising: enabling the triggering of a help mode, the help mode automatically connecting the user to an emergency line, the help mode using a combination of the body-worn device and the host device to enable the user to communicate with the emergency line. 18. The method of claim 11 , further comprising: automatically sharing status updates, the sharing comprising sending the status updates to one or more of: a social media network of the user, a friend of the user who also has the application, and a third party. 19. A system comprising: a communication logic, to link a body-worn device and a host device to create an extended band including the body-worn device and the host device; a plurality of sensors in the extended band to monitor a user's state; a sensor data processing logic to process the data from the plurality of sensors, the sensor data processing implemented in a processor; user interface elements in the extended band to provide information to the user; the extended band enabling the sensors, the data processing, and the user interface elements to be located in the body-worn device and/or the host device, each of the host device and the body-worn device