Algorithm for reduction of mechanical noise in arterial pulse recording with tonometry

E. J. Ciaccio; G. M. Drzewiecki; E. H. Karam

Algorithm for reduction of mechanical noise in arterial pulse recording with tonometry

E. J. Ciaccio, G. M. Drzewiecki, E. H. Karam

School of Engineering, Biomedical Engineering

Rutgers, The State University

Research output: Contribution to conference › Paper › peer-review

5 Scopus citations

Abstract

The quality of arterial pulse recording is diminished by mechanical noise, mainly in the form of movement by the subject, which is unavoidable in environments such as treadmill stress testing and in aerospace settings. A method is presented for minimizing motion artifacts in such recordings. The pulse shape is obtained, through the principle of tonometry, by means of two piezoelectric (crystal) sensors positioned at the pulse site. One motion sensor output is subtracted from the other (pulse sensor = pulse + mostly common-mode motion) output. Observations show that the mechanical gain at each sensor's interface differs. Subject movement can shift the transducer slightly and makes the gain time-varying. An algorithm is developed that estimates the best fit of pulse signal vs. noise signal in real time, using the method of least squares. An equation is presented to correct the pulse.

Original language	American English
Pages	161-162
Number of pages	2
State	Published - 1989
Event	Proceedings of the Fifteenth Annual Northeast Bioengineering Conference - Boston, MA, USA Duration: Mar 27 1989 → Mar 28 1989

Other

Other	Proceedings of the Fifteenth Annual Northeast Bioengineering Conference
City	Boston, MA, USA
Period	3/27/89 → 3/28/89

ASJC Scopus subject areas

General Chemical Engineering

Cite this

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title = "Algorithm for reduction of mechanical noise in arterial pulse recording with tonometry",

abstract = "The quality of arterial pulse recording is diminished by mechanical noise, mainly in the form of movement by the subject, which is unavoidable in environments such as treadmill stress testing and in aerospace settings. A method is presented for minimizing motion artifacts in such recordings. The pulse shape is obtained, through the principle of tonometry, by means of two piezoelectric (crystal) sensors positioned at the pulse site. One motion sensor output is subtracted from the other (pulse sensor = pulse + mostly common-mode motion) output. Observations show that the mechanical gain at each sensor's interface differs. Subject movement can shift the transducer slightly and makes the gain time-varying. An algorithm is developed that estimates the best fit of pulse signal vs. noise signal in real time, using the method of least squares. An equation is presented to correct the pulse.",

author = "Ciaccio, {E. J.} and Drzewiecki, {G. M.} and Karam, {E. H.}",

year = "1989",

language = "American English",

pages = "161--162",

note = "Proceedings of the Fifteenth Annual Northeast Bioengineering Conference ; Conference date: 27-03-1989 Through 28-03-1989",

}

TY - CONF

T1 - Algorithm for reduction of mechanical noise in arterial pulse recording with tonometry

AU - Ciaccio, E. J.

AU - Drzewiecki, G. M.

AU - Karam, E. H.

PY - 1989

Y1 - 1989

N2 - The quality of arterial pulse recording is diminished by mechanical noise, mainly in the form of movement by the subject, which is unavoidable in environments such as treadmill stress testing and in aerospace settings. A method is presented for minimizing motion artifacts in such recordings. The pulse shape is obtained, through the principle of tonometry, by means of two piezoelectric (crystal) sensors positioned at the pulse site. One motion sensor output is subtracted from the other (pulse sensor = pulse + mostly common-mode motion) output. Observations show that the mechanical gain at each sensor's interface differs. Subject movement can shift the transducer slightly and makes the gain time-varying. An algorithm is developed that estimates the best fit of pulse signal vs. noise signal in real time, using the method of least squares. An equation is presented to correct the pulse.

AB - The quality of arterial pulse recording is diminished by mechanical noise, mainly in the form of movement by the subject, which is unavoidable in environments such as treadmill stress testing and in aerospace settings. A method is presented for minimizing motion artifacts in such recordings. The pulse shape is obtained, through the principle of tonometry, by means of two piezoelectric (crystal) sensors positioned at the pulse site. One motion sensor output is subtracted from the other (pulse sensor = pulse + mostly common-mode motion) output. Observations show that the mechanical gain at each sensor's interface differs. Subject movement can shift the transducer slightly and makes the gain time-varying. An algorithm is developed that estimates the best fit of pulse signal vs. noise signal in real time, using the method of least squares. An equation is presented to correct the pulse.

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UR - http://www.scopus.com/inward/citedby.url?scp=0024910087&partnerID=8YFLogxK

M3 - Paper

SP - 161

EP - 162

T2 - Proceedings of the Fifteenth Annual Northeast Bioengineering Conference

Y2 - 27 March 1989 through 28 March 1989

ER -

Algorithm for reduction of mechanical noise in arterial pulse recording with tonometry

Abstract

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ASJC Scopus subject areas

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