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Research paper | 13-December-2017

NON-INVASIVE CHARACTERIZATION OF TOTAL HIP ARTHROPLASTY BY MEANS OF PASSIVE ACCELERATION
MEASUREMENT

This paper presents a non-invasive measurement method to detect and characterize failures and material imperfections in total joint prostheses based on acceleration measurement. Therefore, a prototype sensor has been developed to fulfill the requirements of a medical-technical sensor. This sensor has been tested on patients with total hip arthroplasty. Special emphasis is put on the real-time processing of measurement data by means of intelligent signal processing as well as reliable and

M. Lieschnegg, M. Zacherl, B. Lechner, C. Weger, A. Fuchs

International Journal on Smart Sensing and Intelligent Systems, Volume 3 , ISSUE 1, 75–87

Article | 05-June-2013

A reliable signal conditioning circuit to acquire human biopotentials

It is well known that every human being is a complex system made up of cells, tissues, organs and organ systems that function together to maintain its health. The coordinated physiological processes maintain most of the steady states in an organism, not at a fixed value, but within a narrow, relatively constant range, known as homeostasis [1]. Recently, a non-invasive measurement of human biopotentials has been proposed in order to provide information about the condition of the human system as

Aditi Bhattacharya, Dibyendu Basu, Bhaswati Goswami, Ratna Ghosh

International Journal on Smart Sensing and Intelligent Systems, Volume 6 , ISSUE 3, 1116–1132

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