Glove-based form factor for bio-acoustical sensing

What is claimed is: 1. A bio-vibration device for use by a user, having a hand with a back side and a finger, for sensing vibration signals in an individual, comprising: (a) a finger coupler device; (b) a vibration sensor affixed to the finger coupler device and configured to be pressed against a selected site of the individual and to sense a vibration signal therefrom; (c) a communications circuit that is responsive to the vibration sensor and that is configured to transmit the vibration signal to a remote device; (d) a force sensor disposed between the vibration sensor and the finger coupler device that senses a force applied to the selected site by the user; and (e) a force feedback circuit that is responsive to the force sensor and that determines if the force sensed by the force sensor is within a desired range for consistent signal acquisition by the vibration sensor, the force feedback circuit including a multi-color LED, configured to be disposed on the back side of the hand, that generates: light of a first color when the force applied by the user is within the desired range; light of a second color, different from the first color, when the force applied by the user is below the desired range; and light of a third color, different from the first color and the second color, when the force applied by the user is above the desired range so as to provide visual feedback of sensor contact force. 2. The bio-vibration device of claim 1 , wherein the communications circuit comprises a wireless chipset. 3. The bio-vibration device of claim 1 , wherein the force sensor comprises a capacitance-based film sensor. 4. The bio-vibration device of claim 1 , wherein the selected site includes are area around a joint of the user and wherein the remote device comprises a processor that is configured to analyze the vibration signal and to generate an output indicative of a state of the joint. 5. The bio-vibration device of claim 4 , further comprising at least one movement sensor that is configured to be applied to a part of the individual near the joint and configured to generate a movement signal indicating movement in the joint. 6. The bio-vibration device of claim 5 , wherein the vibration sensor comprises a selected one of an accelerometer and a microphone. 7. The bio-vibration device of claim 1 , wherein the finger coupler device includes a glove including at least one fingertip covering to which the vibration sensor is affixed. 8. The bio-vibration device of claim 1 , further comprising a finger-mounted transducer for generating an applied vibration signal that is applied to the selected site and wherein the vibration sensor is configured to sense reflections of the applied vibration signal. 9. The bio-vibration device of claim 1 , further comprising a set of four electrodes and a circuit that generates information regarding impedance of tissues of individual at the site and wherein the wireless communications circuit that is responsive to the electrodes and is configured to transmit the impedance information to a remote device. 10. The bio-vibration sensor of claim 1 , wherein the selected site includes an area around a joint of the user, the sensor configured as a multi-modal sensing system and further comprising: (a) at least one movement sensor that is configured to be applied to a part of the individual near the joint and configured to generate a movement signal indicating movement in the joint; (b) a force sensor configured to sense a force applied to the selected site by the user; (c b) a set of four electrodes and a circuit that generates information regarding impedance of the tissues of individual at the site; and (d c) a processor that is configured to analyze the vibration signal, the movement signal, the force applied by the user and the impedance information so as to generate an output indicative of a state of the joint. 11. A bio-vibration device for use by a user, having a hand with a back side and a finger, for sensing vibration signals in an individual, comprising: (a) a finger coupler device; (b) a vibration sensor affixed to the finger coupler device and configured to be pressed against a selected site of the individual and to sense a vibration signal therefrom; and (c) a communications circuit that is responsive to the vibration sensor and that is configured to transmit the vibration signal to a remote device; (d) a force sensor disposed between the vibration sensor and the finger coupler device that senses a force applied to the selected site by the user; and (e) a force feedback circuit that is responsive to the force sensor and that determines if the force sensed by the force sensor is within a desired range, the force feedback circuit including a multi-color LED, configured to be disposed on the back side of the hand, that generates: light of a first color when the force applied by the user is between 4N and 7N; light of a second color, different from the first color, when the first color and the second color, when the force applied by the user is above 7N so as to provide visual feedback of sensor contact force. 12. The bio-vibration device of claim 11 , wherein the communications circuit comprises a wireless chipset. 13. The bio-vibration device of claim 11 , wherein the force sensor comprises a capacitance-based film sensor. 14. The bio-vibration device of claim 11 , wherein the selected site includes an area around a joint of the user and wherein the remote device comprises a processor that is configured to analyze the vibration signal and to generate an output indicative of a state of the joint. 15. The bio-vibration device of claim 14 , further comprising at least one movement sensor that is configured to be applied to a part of the individual near the joint and configured to generate a movement signal indicating movement in the joint. 16. The bio-vibration device of claim 15 , wherein the vibration sensor comprises a selected one of an accelerometer and a microphone. 17. The bio-vibration device of claim 11 , wherein the finger coupler device includes a glove including at least one fingertip covering to which the vibration sensor is affixed. 18. The bio-vibration device of claim 11 , further comprising a finger-mounted transducer for generating an applied vibration signal that is applied to the selected site and wherein the vibration sensor is configured to sense reflections of the applied vibration signal. 19. The bio-vibration device of claim 11 , further comprising a set of four electrodes and a circuit that generated information regarding impedance of tissues of individual at the site and wherein the wireless communications circuit that is responsive to the electrodes and is configured to transmit the impedance information to a remote device. 20. The bio-vibration device of claim 11 , wherein the selected site includes an area around a joint of the user, the sensor configured as a multi-modal sensing system and further comprising: (a) at least one movement sensor that is configured to be applied to a part of the individual near the joint and configured to generate a movement signal indicating movement in the joint; (b) a set of four electrodes and a circuit that generates information regarding impedance of the tissues of individual at the site; and (c) a processor that is configured to analyze the vibration signal, the movement signal, the force applied by the user and the impedance information so as to generate an output indicative of a state of the joint.