A signal separation algorithm for fetal heart-rate estimation

K. C. Lai; J. J. Shynk

A signal separation algorithm for fetal heart-rate estimation

K. C. Lai, J. J. Shynk

電腦與通信工程研究所

研究成果: Conference article › 同行評審

5 引文斯高帕斯（Scopus）

摘要

In this paper, we describe an adaptive algorithm for separating fetal and maternal heart beats from data containing both fetal and maternal QRS complexes. The algorithm classifies the combined heart-rate data as a series of fetal, maternal, and noise events using a technique of template matching. Peak detection is first employed to locate the potential fetal and maternal QRS complexes (referred to as candidate events). Fetal and maternal templates are generated automatically from the candidate events in the initialization period, and are used to classify the remaining candidate events based on certain similarity criteria. Once the fetal and maternal complexes are successfully detected and separated, a counting mechanism can be utilized to derive the corresponding heart rates. Computer simulations using real data demonstrate the effectiveness of the algorithm.

原文	English
頁（從 - 到）	348-351
頁數	4
期刊	Conference Record of the Asilomar Conference on Signals, Systems and Computers
卷	1
出版狀態	Published - 2000
事件	34th Asilomar Conference - Pacific Grove, CA, United States 持續時間: 2000 10月 29 → 2000 11月 1

All Science Journal Classification (ASJC) codes

訊號處理
電腦網路與通信

其它文件與鏈接

引用此

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title = "A signal separation algorithm for fetal heart-rate estimation",

abstract = "In this paper, we describe an adaptive algorithm for separating fetal and maternal heart beats from data containing both fetal and maternal QRS complexes. The algorithm classifies the combined heart-rate data as a series of fetal, maternal, and noise events using a technique of template matching. Peak detection is first employed to locate the potential fetal and maternal QRS complexes (referred to as candidate events). Fetal and maternal templates are generated automatically from the candidate events in the initialization period, and are used to classify the remaining candidate events based on certain similarity criteria. Once the fetal and maternal complexes are successfully detected and separated, a counting mechanism can be utilized to derive the corresponding heart rates. Computer simulations using real data demonstrate the effectiveness of the algorithm.",

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T1 - A signal separation algorithm for fetal heart-rate estimation

AU - Lai, K. C.

AU - Shynk, J. J.

PY - 2000

Y1 - 2000

N2 - In this paper, we describe an adaptive algorithm for separating fetal and maternal heart beats from data containing both fetal and maternal QRS complexes. The algorithm classifies the combined heart-rate data as a series of fetal, maternal, and noise events using a technique of template matching. Peak detection is first employed to locate the potential fetal and maternal QRS complexes (referred to as candidate events). Fetal and maternal templates are generated automatically from the candidate events in the initialization period, and are used to classify the remaining candidate events based on certain similarity criteria. Once the fetal and maternal complexes are successfully detected and separated, a counting mechanism can be utilized to derive the corresponding heart rates. Computer simulations using real data demonstrate the effectiveness of the algorithm.

AB - In this paper, we describe an adaptive algorithm for separating fetal and maternal heart beats from data containing both fetal and maternal QRS complexes. The algorithm classifies the combined heart-rate data as a series of fetal, maternal, and noise events using a technique of template matching. Peak detection is first employed to locate the potential fetal and maternal QRS complexes (referred to as candidate events). Fetal and maternal templates are generated automatically from the candidate events in the initialization period, and are used to classify the remaining candidate events based on certain similarity criteria. Once the fetal and maternal complexes are successfully detected and separated, a counting mechanism can be utilized to derive the corresponding heart rates. Computer simulations using real data demonstrate the effectiveness of the algorithm.

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M3 - Conference article

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JO - Conference Record of the Asilomar Conference on Signals, Systems and Computers

JF - Conference Record of the Asilomar Conference on Signals, Systems and Computers

T2 - 34th Asilomar Conference

Y2 - 29 October 2000 through 1 November 2000

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