Wearable technologies for joint health assessment

What is claimed is: 1. A system for assessing joint health of a joint comprising: a first sensing assembly for sensing characteristics related to the joint health comprising a wearable sensor for placement proximate the joint and configured to measure at least one non-acoustic characteristic of the joint during movement; a second sensing assembly for sensing characteristics related to the joint structure comprising: a first wearable bioimpedance sensor comprising a source of current; and a second wearable bioimpedance sensor comprising a receiver and configured for placement proximate the joints; the second sensing assembly configured to measure bioimpedance of the joint based at least in part upon a voltage drop across the joint; a health assessor that provides an assessment of joint health through interpretation of characteristics from the first and the second sensing assemblies; and an output assembly capable of providing an indication of joint health to a user of the system; wherein: at least one non-acoustic characteristic of the joint during movement is selected from the group consisting of linear acceleration and angular velocity; the first sensing assembly further comprises an acoustic sensor configured to measure acoustic emissions from the joint during movement; and the health assessor is configured to automatically and periodically calibrate the measured bioimpedance from the second sensing assembly. 2. The system of claim 1 further comprising an output assembly capable of providing an indication of joint health to a user of the system. 3. The system of claim 1 , wherein the first sensing assembly further comprises a wearable acoustic sensor configured to measure acoustic emissions from the joint during movement. 4. The system of claim 1 , wherein a non-acoustic characteristic of the joint during movement is selected from the group consisting of linear acceleration and angular velocity. 5. The system of claim 1 , wherein the second sensing assembly further comprises a processor configured to measure a potential difference across the joint through amplification and phase-sensitive detection stages, the potential difference reflective of the bioimpedance of tissue and blood in proximity of the joint. 6. The system of claim 1 , wherein the acoustic sensor comprises a wearable acoustic sensor for placement proximate the joint. 7. The system of claim 6 , wherein the wearable acoustic sensor comprises piezoelectric film and is capable of measuring surface vibrations of skin associated with acoustic emissions from the joint. 8. The system of claim 1 , wherein the acoustic sensor comprises a sensor for placement distal the joint. 9. The system of claim 8 , wherein the acoustic sensor distal the joint comprises a microphone capable of measuring airborne acoustic emissions from the joint. 10. The system of claim 1 , wherein the health assessor comprises a health assessor processor selected from the group consisting of a processor that: automatically and periodically calibrates bioimpedance measurements using electronic loads and an algorithm; processes at least one signal representative of acoustic emissions from the joint in the context of joint angle; processes acoustic emissions from the joint using filter banks to separate signals based on frequency content; detects a type of activity occurring in proximity to the joint, and processes acoustic emissions from the joint during the activity based on the type of activity; processes at least one signal representative of bioimpedance of the joint, which processing provides an indication of joint swelling; processes at least one signal representative of bioimpedance of the joint, which processing provides an indication of blood flow proximate the joint; and processes at least one signal representative of bioimpedance of the joint, which processing provides an indication of blood volume proximate the joint. 11. The system of claim 10 , wherein the health assessor processor detects a type of activity occurring in proximity to the joint, and processes acoustic emissions from the joint during the activity based on the type of activity; and wherein a type of activity is selected from the group consisting of unloaded knee flexion/extension exercise, sit-to-stand exercise, walking, and stair-climbing. 12. The system of claim 1 , wherein: the system is a wearable system for assessing joint health of a user; the health assessor quantifies a degree of injury at the joint through interpretation of characteristics from the first and the second sensing assemblies; and the second sensing assembly and health assessor are capable of determining one or more of joint swelling, blood flow proximate the joint, and blood volume proximate the joint. 13. The system of claim 12 further comprising an output assembly capable of providing an indication of joint health to the user of the system. 14. The system of claim 12 further comprising an output assembly capable of providing an indication of joint health to a care giver of the user of the system. 15. The system of claim 1 , wherein: the system is for assessing joint health of a user; the first sensing assembly comprises a first sensing modality assembly, the first sensing modality assembly comprising an acoustical assembly including: wearable proximate joint acoustic sensors capable of sending at least one signal representative of acoustic emissions from the joint during movement; distal joint acoustic sensors capable of sending at least one signal representative of airborne acoustic emissions from the joint during movement; and the wearable sensor for placement proximate the joint and configured to measure at least one non-acoustic characteristic of the joint during movement, wherein the wearable sensor is capable of sending at least one signal representative of at least one non-acoustic characteristic of joint movement selected from the group consisting of linear acceleration and angular velocity; the second sensing assembly comprises a second sensing modality assembly, the second sensing modality assembly comprising a bioimpedance assembly that includes the first and second wearable bioimpedance sensors configured to measure bioimpedance of the joint; and the bioimpedance assembly and health assessor are capable of determining characteristics related to joint structure selected from the group consisting of joint swelling, blood flow, and blood volume. 16. The system of claim 15 , wherein the bioimpedance assembly further comprises a processor capable of measuring the potential difference across the joint through amplification and phase-sensitive detection stages. 17. The system of Claim 16 , wherein the first wearable bioimpedance sensor comprises two electrodes configured for current injection; wherein the second wearable bioimpedance sensor comprises two electrodes configured for voltage measurement; and wherein the electrodes of the first and second wearable bioimpedance sensors comprise a quadripolar configuration to reduce the effect of electrode-skin interface impedance. 18. The system of claim 15 , wherein the first wearable bioimpedance sensor comprises at least two electrodes. 19. The system of Claim 18 , wherein the first wearable bioimpedance sensor delivers current below a safety threshold that does not create damage at the joint. 20. The system of Claim 18 , wherein the first wearable bioimpedance sensor delivers current at a frequency such that it can propagate through both int