Mesh network personal emergency response appliance

The invention claimed is: 1. A digital stethoscope for detecting circulatory information in an object which is part of a living person, said stethoscope comprising a transducer, said transducer comprising: a) a first piezoelectric crystal proximate to said object and capable of generating a first acoustic signal at a first frequency; b) a second piezoelectric crystal proximate to said object and positioned at an angle with respect to said first piezoelectric crystal and capable of receiving a second acoustic signal at a second frequency which is a reflection of said first acoustic signal generated when said first acoustic signal is reflected from said object; wherein said angle is determined by the depth of the object within said living person; c) a receiver circuit coupled to said first and second crystal transducers and for outputting a difference frequency signal which is representative of the circulatory information and based upon the difference in frequency between the first acoustic signal and the second acoustic signal. 2. The digital stethoscope of claim 1 wherein the circulatory information is the speed of the blood flow. 3. The digital stethoscope of claim 2 wherein the acoustic signals are ultrasonic signals and the difference frequency signal is a Doppler signal. 4. A health monitoring device configured to be worn on at least one part of a living body, wherein said health monitoring device comprises the digital stethoscope of claim 1 . 5. The health monitoring device of claim 4 wherein one part of a living body is a wrist. 6. The health monitoring device of claim 4 wherein one part of a living body is a finger. 7. A user activity device for use with a wireless mesh network, said activity device comprising: a. a sensor for detecting a health related measurement of a user; b. a wireless transceiver coupled to said sensor and adapted to communicate with one or more wireless nodes in said wireless mesh network; c. a digital monitoring agent coupled to the wireless transceiver to request assistance from a third party based on the sensor. 8. The user activity device of claim 7 wherein said sensor comprises an optical detector. 9. The user activity device of claim 7 wherein said sensor comprises an ultrasonic detector. 10. The user activity device of claim 7 wherein said sensor comprises a sound transducer. 11. The user activity device of claim 7 wherein said sensor comprises an EMG detector. 12. The user activity device of claim 7 wherein said sensor comprises an accelerometer. 13. The user activity device of claim 7 wherein said sensor comprises bioimpedance sensor. 14. The user activity device of claim 7 wherein said sensor comprises and EEG detector. 15. The user activity device of claim 7 wherein said sensor comprises and EKG detector. 16. The user activity device of claim 7 wherein said digital monitoring agent comprises a Hidden Markov Model (HMM) recognizer. 17. The user activity device of claim 7 wherein said digital monitoring agent comprises a dynamic time warp (DTW) recognizer. 18. The user activity device of claim 7 wherein said digital monitoring agent comprises a rule-driven system. 19. The user activity device of claim 7 further comprising a microphone and a speaker. 20. A method for detecting circulatory information in an object which is part of a living person comprising the steps of: a. Generating a first ultrasonic signal having a first frequency and directing it to a blood vessel at or near the surface of part of a living person; b. measuring the a second frequency which is the frequency of the reflected signal reflected by said blood vessel; c. detecting the difference in frequency between said first ultrasonic signal and said second ultrasonic signal wherein said difference is representative of the circulatory information.