Title :
Optimization of memory space for long time data collection by adaptive sampling: application to a new strain sensor for hip join
Author :
Manouvre, D. ; Tasler, M. ; Muller, L. ; Granjon, Y.
Author_Institution :
ENSEM-CRAN-GBM, Vandoeuvre les Nancy, France
Abstract :
In vivo measurements are necessary for the validation of a hip bone strain sensor. The memory capacity of the associated telemetry data acquisition systems is limited. In order to correctly evaluate the reliability of the sensor, long time data measurement are necessary. They may last several days and are performed with a constant sampling frequency on a sheep. The goal of our project is the optimization of the memory space. We therefore propose to adapt the sampling frequency to the variation of the collected signal, which is correlated with the sheep´s walk
Keywords :
adaptive signal detection; biological techniques; biology computing; biomechanics; biomedical telemetry; bone; data acquisition; digital storage; signal sampling; spectral analysis; strain gauges; strain sensors; adaptive sampling; collected signal; constant sampling frequency; hip bone strain sensor; hip join; in vivo measurements; long time data collection; memory capacity; memory space optimization; reliability; sheep; sheep walk; strain sensor; telemetry data acquisition systems; Bones; Capacitive sensors; Data acquisition; Frequency; Hip; In vivo; Sampling methods; Strain measurement; Telemetry; Time measurement;
Conference_Titel :
Bioengineering Conference, 1995., Proceedings of the 1995 IEEE 21st Annual Northeast
Conference_Location :
Bar Harbor, ME
Print_ISBN :
0-7803-2692-X
DOI :
10.1109/NEBC.1995.513730
