Research Article Open Access

A New Self-Adaptive Neuro Fuzzy Inference System for the Removal of Non-Linear Artifacts from the Respiratory Signal

A. Bhavani Sankar, D. Kumar and K. Seethalakshmi

Abstract

Problem statement: In this study, a new ANFIS-based adaptive filter is proposed to remove the non-linear artifacts from the respiratory signal measured using MEMS based accelerometer sensor. The data recorded from the abdomen movement includes the respiratory signal, electromyogram, 50Hz power line interference and the random electrode noise. In order to avoid convergence into local extremes, the system employs ANFIS method. Approach: The proposed architecture is a combination of adaptive filter in which Least Mean Square and Recursive Least Square algorithms are employed and ANFIS, where ANFIS is recruited whenever the adaptive filter is suspected of reading a local extreme value. Results: The results showed that the normalized LMS performs better when compared to other LMS algorithms with SNR improvement of 4.17 dB and MSE value of 0.062. RLS provides least MSE value or 0.015 but only with highest filter order. Quantitative analysis reveals that ANFIS out performs the normalized LMS and RLS algorithms. Conclusion: The result obtained indicates that ANFIS is a useful Artificial Intelligence technique to cancel the non linear interferences from the respiratory signal with very low mean square value of 0.011.

Journal of Computer Science
Volume 8 No. 5, 2012, 621-631

DOI: https://doi.org/10.3844/jcssp.2012.621.631

Submitted On: 7 January 2012 Published On: 16 February 2012

How to Cite: Sankar, A. B., Kumar, D. & Seethalakshmi, K. (2012). A New Self-Adaptive Neuro Fuzzy Inference System for the Removal of Non-Linear Artifacts from the Respiratory Signal. Journal of Computer Science, 8(5), 621-631. https://doi.org/10.3844/jcssp.2012.621.631

  • 3,293 Views
  • 4,100 Downloads
  • 4 Citations

Download

Keywords

  • Adaptive filter
  • least mean square
  • normalized LMS
  • recursive least square
  • adaptive neuro fuzzy inference system