• DocumentCode
    1756405
  • Title

    High-Precision Harmonic Distortion Level Measurement of a Loudspeaker Using Adaptive Filters in a Noisy Environment

  • Author

    Fujioka, Toyota ; Nagata, Yoshifumi ; Abe, Masato

  • Author_Institution
    Dept. of Electr. Eng. & Comput. Sci., Iwate Univ., Iwate, Japan
  • Volume
    23
  • Issue
    10
  • fYear
    2015
  • fDate
    Oct. 2015
  • Firstpage
    1613
  • Lastpage
    1622
  • Abstract
    The harmonic distortion level (HDL), an important criterion used to evaluate loudspeaker performance, can usually be measured using spectral analysis. However, spectral analysis entails great computational complexity. Furthermore, long measurement times are necessary to measure HDL accurately in a noisy environment. Therefore, we proposed the HDL measurement technique for a loudspeaker using an adaptive filter. This measurement technique can measure HDL as accurately as spectral analysis using fast Fourier transform (FFT). Furthermore, its computational complexity is much less than that of spectral analysis. Nevertheless, this measurement technique requires a long measurement time to assess the convergence of filter coefficients. This paper presents a description of the new HDL measurement technique of a loudspeaker using plural adaptive filters. The proposed measurement technique can measure HDL more accurately than spectral analysis in a noisy environment. We evaluated the performance of the proposed measurement technique using computer simulations. Results based on computer simulations show that the proposed measurement technique is more effective than spectral analysis in an acoustic environment with background noise.
  • Keywords
    adaptive filters; convergence; fast Fourier transforms; harmonic distortion; loudspeakers; spectral analysis; FFT; HDL measurement technique; acoustic environment; background noise; computational complexity; convergence; fast Fourier transform; high-precision harmonic distortion level measurement; loudspeaker performance; measurement time; noisy environment; plural adaptive filters; spectral analysis; Computational complexity; Hardware design languages; Harmonic analysis; Least squares approximations; Loudspeakers; Measurement techniques; Time measurement; Adaptive filter; distortion level measurement; harmonic distortion; loudspeaker;
  • fLanguage
    English
  • Journal_Title
    Audio, Speech, and Language Processing, IEEE/ACM Transactions on
  • Publisher
    ieee
  • ISSN
    2329-9290
  • Type

    jour

  • DOI
    10.1109/TASLP.2015.2442415
  • Filename
    7118662