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Medical & Biological Engineering & Computing

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01-03-2016 | Review Article

Closed-loop controller for chest compressions based on coronary perfusion pressure: a computer simulation study

Authors: Chunfei Wang, Guang Zhang, Taihu Wu, Ningbo Zhan, Yaling Wang

Published in: Medical & Biological Engineering & Computing | Issue 2-3/2016

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Abstract

High-quality cardiopulmonary resuscitation contributes to cardiac arrest survival. The traditional chest compression (CC) standard, which neglects individual differences, uses unified standards for compression depth and compression rate in practice. In this study, an effective and personalized CC method for automatic mechanical compression devices is provided. We rebuild Charles F. Babbs’ human circulation model with a coronary perfusion pressure (CPP) simulation module and propose a closed-loop controller based on a fuzzy control algorithm for CCs, which adjusts the CC depth according to the CPP. Compared with a traditional proportion–integration–differentiation (PID) controller, the performance of the fuzzy controller is evaluated in computer simulation studies. The simulation results demonstrate that the fuzzy closed-loop controller results in shorter regulation time, fewer oscillations and smaller overshoot than traditional PID controllers and outperforms the traditional PID controller for CPP regulation and maintenance.

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Title: Closed-loop controller for chest compressions based on coronary perfusion pressure: a computer simulation study
Authors: Chunfei Wang
Guang Zhang
Taihu Wu
Ningbo Zhan
Yaling Wang
Publication date: 01-03-2016
Publisher: Springer Berlin Heidelberg
Published in: Medical & Biological Engineering & Computing / Issue 2-3/2016
Print ISSN: 0140-0118
Electronic ISSN: 1741-0444
DOI: https://doi.org/10.1007/s11517-015-1333-4

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