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Accelerated sparsity based reconstruction of compressively sensed multichannel EEG signals

Author

Listed:
  • Muhammad Tayyib
  • Muhammad Amir
  • Umer Javed
  • M Waseem Akram
  • Mussyab Yousufi
  • Ijaz M Qureshi
  • Suheel Abdullah
  • Hayat Ullah

Abstract

Wearable electronics capable of recording and transmitting biosignals can provide convenient and pervasive health monitoring. A typical EEG recording produces large amount of data. Conventional compression methods cannot compress date below Nyquist rate, thus resulting in large amount of data even after compression. This needs large storage and hence long transmission time. Compressed sensing has proposed solution to this problem and given a way to compress data below Nyquist rate. In this paper, double temporal sparsity based reconstruction algorithm has been applied for the recovery of compressively sampled EEG data. The results are further improved by modifying the double temporal sparsity based reconstruction algorithm using schattern-p norm along with decorrelation transformation of EEG data before processing. The proposed modified double temporal sparsity based reconstruction algorithm out-perform block sparse bayesian learning and Rackness based compressed sensing algorithms in terms of SNDR and NMSE. Simulation results further show that the proposed algorithm has better convergence rate and less execution time.

Suggested Citation

  • Muhammad Tayyib & Muhammad Amir & Umer Javed & M Waseem Akram & Mussyab Yousufi & Ijaz M Qureshi & Suheel Abdullah & Hayat Ullah, 2020. "Accelerated sparsity based reconstruction of compressively sensed multichannel EEG signals," PLOS ONE, Public Library of Science, vol. 15(1), pages 1-15, January.
    • Handle: RePEc:plo:pone00:0225397
    DOI: 10.1371/journal.pone.0225397
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    Cited by:

    1. Ignacio Algredo-Badillo & José Julio Conde-Mones & Carlos Arturo Hernández-Gracidas & María Monserrat Morín-Castillo & José Jacobo Oliveros-Oliveros & Claudia Feregrino-Uribe, 2020. "An FPGA-based analysis of trade-offs in the presence of ill-conditioning and different precision levels in computations," PLOS ONE, Public Library of Science, vol. 15(6), pages 1-26, June.

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