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High performance method for COPD features extraction using complex network.

Trong-Thanh Han1, Kien Le Trung1, Phuong Nguyen Anh1

  • 1School of Electrical and Electronic Engineering, Hanoi University of Science and Technology, Hanoi, 100000, Vietnam.

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Summary
This summary is machine-generated.

This study introduces a new method for diagnosing Chronic Obstructive Pulmonary Disease (COPD) using lung sound analysis and machine learning. The approach achieved high accuracy, with Random Forest classification reaching 99.67% AUC.

Keywords:
COPDcomplex networkinverse transformsmachine learning

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Area of Science:

  • Medical Informatics
  • Signal Processing
  • Machine Learning

Background:

  • Chronic Obstructive Pulmonary Disease (COPD) diagnosis relies on clinical assessment and spirometry.
  • Objective analysis of respiratory sounds offers a non-invasive diagnostic adjunct.
  • Current methods for respiratory sound analysis can be enhanced with advanced feature extraction and classification.

Purpose of the Study:

  • To develop and validate a novel methodology for COPD classification using respiratory sound attributes.
  • To explore the efficacy of various signal processing techniques and machine learning algorithms for COPD detection.
  • To establish a robust and accurate diagnostic tool for COPD based on lung sound spectrograms.

Main Methods:

  • Respiratory sounds were segmented into breaths, and features were extracted using Spectral Transforms and Wavelet Transforms (e.g., Daubechies Db2).
  • Complex Network analysis was applied to spectrograms to generate novel graph-based representations.
  • Six machine learning algorithms were trained and fine-tuned for COPD classification, with hyperparameter optimization.

Main Results:

  • The proposed methodology demonstrated high performance, with Area Under the Curve (AUC) consistently exceeding 96% across different time-frequency transformations.
  • The Random Forest algorithm achieved a peak AUC of 99.67%, significantly outperforming other evaluated algorithms.
  • The Wavelet Daubechies 2 (Db2) transform, particularly with the Naive Bayes algorithm, approached 98% accuracy.

Conclusions:

  • The study successfully demonstrated a promising approach for accurate COPD diagnosis using machine learning applied to respiratory sound spectrograms.
  • The integration of Complex Network analysis and optimized classification algorithms yielded superior diagnostic performance.
  • This methodology offers a potential non-invasive and effective tool for early and accurate COPD detection.