Abstract: Measurement of cumulative loading statistics experienced by a structure is essential for monitoring long-term fatigue in biomechanical implants.

Abstract: Measurement of cumulative loading statistics experienced by a structure is essential for monitoring long-term fatigue in biomechanical implants.

Measurement of cumulative loading statistics experienced by a structure is essential for monitoring long-term fatigue in biomechanical implants.

Aug 4, 2009 · Abstract— Measurement of cumulative loading statistics experienced by a structure is essential for monitoring long-term fatigue in ...

Measurement of cumulative loading statistics experienced by a structure is essential for monitoring long-term fatigue in biomechanical implants.

This paper presents the design and calibration of a CMOS event counter for long-term, self-powered mechanical usage monitoring and presents a calibration ...

Abstract—Self-powered monitoring refers to a signal pro- cessing technique where the computational power is harvested.

In this paper, we present the design and calibration of a CMOS event counter for long-term, self-powered mechanical usage monitoring. The counter exploits a log ...

Calibration and characterization of self-powered floating-gate usage monitor with single electron per second operational limit. C Huang, N Lajnef, S ...

Apr 25, 2024 · Calibration and characterization of self-powered floating-gate sensor arrays for long-term fatigue monitoring. ISCAS 2008: 1096-1099; 2007.