Intelligent joint prosthesis

What is claimed is: 1. An implantable prosthesis, comprising: a housing; and an implantable circuit disposed in the housing and comprising a sensor, the implantable circuit configured to: generate a signal representative of a movement, the signal generated at a fixed sampling rate and comprising acceleration signals relative to a coordinate system of the sensor and angular velocity signals relative to the coordinate system of the sensor; compare a high output data rate version of the signal to a corresponding benchmark signal comprising acceleration signals relative to the coordinate system of the sensor and angular velocity signals relative to the coordinate system of the sensor to determine whether the signal meets a first criterion; and send the signal to a remote location in response to determining that the signal meets the first criterion. 2. The implantable prosthesis of claim 1 , wherein the housing includes a tibial extension. 3. The implantable prosthesis of claim 1 , wherein the first criterion includes that the signal represents the movement for at least a threshold duration. 4. The implantable prosthesis of claim 1 , wherein the first criterion includes that the signal represents the movement for at least a threshold number of events. 5. The implantable prosthesis of claim 1 , wherein: the movement includes a patient walking; and the first criterion includes that the signal represents the movement for at least a threshold number of steps taken by the patient. 6. The implantable prosthesis of claim 1 , wherein the implantable circuit is further configured to: compare a low output data rate version of the signal to a benchmark signal comprising acceleration signals relative to the coordinate system of the sensor and angular velocity signals relative to the coordinate system of the sensor to determine whether the movement meets a second criterion before determining whether the signal meets the first criterion; and determine whether the signal meets the first criterion in response to determining that the movement meets the second criterion. 7. The implantable prosthesis of claim 6 , wherein the second criterion includes that the movement is a patient walking. 8. The implantable prosthesis of claim 1 , wherein the implantable circuit is further configured to: determine, in response to the signal, whether the movement meets a second criterion; and cease generating the signal in response to determining that the movement does not meet the second criterion. 9. The implantable prosthesis of claim 1 , wherein the implantable circuit is further configured to: compare a low output data rate (ODR) version of the signal to a benchmark signal comprising acceleration signals relative to the coordinate system of the sensor and angular velocity signals relative to the coordinate system of the sensor to determine, in response to the signal, whether the movement meets a second criterion; and cease generating the signal before determining whether the signal meets the first criterion in response to determining that the movement does not meet the second criterion. 10. The implantable prosthesis of claim 9 , wherein the low output data rate is less than the high output data rate. 11. The implantable prosthesis of claim 1 , wherein the implantable circuit is further configured to: store the signal in response to determining that the signal meets the first criterion; and send the stored signal to the remote location. 12. The implantable prosthesis of claim 1 , wherein the implantable circuit is further configured to encrypt the signal before sending the signal to the remote location. 13. The implantable prosthesis of claim 1 , wherein the implantable circuit is further configured to encode the signal before sending the signal to the remote location. 14. The implantable prosthesis of claim 1 , wherein: the implantable circuit is further configured to generate a message that includes the signal; and sending the signal includes sending the message. 15. The implantable prosthesis of claim 1 , wherein: the implantable circuit is further configured to generate a data packet that includes the signal; and sending the signal includes sending the data packet to the remote location. 16. The implantable prosthesis of claim 1 , wherein the high output data rate is less than the sampling rate. 17. The implantable prosthesis of claim 1 , wherein the implantable circuit compares the high output data rate version of the signal to the corresponding benchmark signal by being configured to: correlate the high output data rate version of the signal and the corresponding benchmark signal to obtain a correlation value; and compare the correlation value to a correlation threshold. 18. The implantable prosthesis of claim 1 , wherein the implantable circuit compares the high output data rate version of the signal to the corresponding benchmark signal by being configured to limit the comparison to one or more specific regions of the signal and the benchmark signal. 19. The implantable prosthesis of claim 18 , wherein the signal and benchmark signal represent a gait and the one or more specific regions correspond to one or more heel strikes in the gait. 20. The implantable prosthesis of claim 1 , wherein the implantable circuit is further configured to determine an indication of one or more of instability of the implantable prosthesis and degradation of the implantable prosthesis based on the high output data rate version of the signal. 21. The implantable prosthesis of claim 20 , wherein: instability of the implantable prosthesis is indicated by one or more oscillations in the high output data rate version of the signal that span a first duration of the high output data rate version of the signal; early-onset degradation of the implantable prosthesis is indicated by oscillations in the high output data rate version of the signal that span a second duration the high output data rate version of the signal that is greater than the first duration; and advanced degradation of the implantable prosthesis is indicated by oscillations in the high output data rate version of the signal that span a third duration of the high output data rate version of the signal that is greater than each of the first duration and the second duration.