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Volume 38 Issue 2
Mar.  2014
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Article Navigation >  LASER TECHNOLOGY  > 2014 >  38(2): 218-224

Citation:
shu

An improved wavelet threshold algorithm applied in laser interception

  • 1.

    Prostgraduare Brigade, Engineering College of China Armed Police Force, Xi'an 710086, China;

  • 2.

    Department of Communications Engineering, Engineering College of China Armed Police Force, Xi'an 710086, China

  • Corresponding author: ZHANG Bohu, zbh62825@163.com
  • Received Date: 2013-06-04
    Accepted Date: 2013-07-06
  • In order to get better denoising result in laser interception, an improved wavelet threshold denoising algorithm was proposed. Through theoretical analysis and experimental verification, a series of simulation data were obtained. The results show that, compared with the traditional denoising algorithm, the speech signal-to-noise ratio after denoising is improved greatly. Denoising effect is obvious, signal waveform is smoother and distortion is less.
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    GUO Ch Y, ZHENG K. Denoising optical interferometry signal based on wavelet transform threshold [J]. Laser Technology, 2009, 37 (5): 506-508(in Chinese).
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    WANG B, LI J W, WANG Zh F. Threshold de-noising method based on wavelet analysis [J]. Computer Engineering and Design, 2011, 32 (3): 1099-1102(in Chinese).
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    GUO Ch X.On the speaker recognition algorithm [J]. Journal of Xi'an University of Post and Telecom, 2010, 15 (5): 104-106(in Chinese).
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    ZHENG R, ZHANG Sh W, XU B. Improvement of speaker identification by combining prosodic features with acoustic features [C]// 5th Chinese Conference on Biometric Recognition.Guangzhou: Lecture Notes in Computer Science, 2004: 569-576.
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    YE H Sh, TAO J X, ZHANG D W. Improve speaker identification performance by integrating characters under noisy conditions [J].Computer Simulation, 2009, 26(3): 325-328(in Chinese).
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    GAN Zh G. An improved feature extraction method in speaker identification[C]//2011 Third International Conference on Intelligent Human-Machine Systems and Cybernetics.Hangzhou:IEEE, 2011: 218-222.
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    McLAREN M, van LEEUWEN D. Source normalised and weighted LDA for robust speaker recognition using I-vectors[C]//IEEE International Conference on Acoustics, Speech and Signal Processing. Prague,Czech Republic:IEEE,2011: 5456-5459.
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    DU J, ZOU X, HAO J, et al. The efficiency of ICA-based representation analysis:application to speech feature extraction[J].Chinese Journal of Electronics, 2011, 20(2): 287-292.
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    ZHENG J W, WANG W L, ZHENG Z P. Speaker identification approach of hybrid GMM and RVM [J]. Computer Simulation, 2010, 36(15): 168-170(in Chinese).
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    SAASTAMOINEN J, KARPOV E, HAUTAMAKI V, et al. Accuracy of MFCC-based speaker recognition in series 60 device [J]. EURASIP Journal on Advances in Signal Processing, 2005, 37(17): 2816-2827.
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    WOOTERS C, HUIJBREGTS M. The ICSI RT07s speaker diarization system [J]. Multimodal Technologies for Perception of Humans, 2008, 46(25): 509-519.
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    BOLL S. Suppression of acoustic noise in speech using spectral subtraction [J]. IEEE Transactions on Acoustics, Speech and Signal Processing, 1979, 27(2): 113-120.
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    CHEN A M, VASEGHI S, MECOURT P. State based sub-band LP wiener filters for speech enhancement in car environments [J]. IEEE Proceedings of International Conference on Acoustics, Speech and Signal Processing,2000,15(1):213-216.
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    McAULAY R, MALPASS M. Speech enhancement using a soft-decision noise suppression filter [J]. IEEE Transaction on Acoustics, Speech and Signal Processing,1980,28(2):137-145.
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  • 1. 

    沈阳化工大学材料科学与工程学院 沈阳 110142

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An improved wavelet threshold algorithm applied in laser interception

    Corresponding author: ZHANG Bohu, zbh62825@163.com
  • 1. Prostgraduare Brigade, Engineering College of China Armed Police Force, Xi'an 710086, China;
  • 2. Department of Communications Engineering, Engineering College of China Armed Police Force, Xi'an 710086, China
  • Received Date: 2013-06-04
  • Accepted Date: 2013-07-06
  • Available Online: 2014-02-25

Abstract: In order to get better denoising result in laser interception, an improved wavelet threshold denoising algorithm was proposed. Through theoretical analysis and experimental verification, a series of simulation data were obtained. The results show that, compared with the traditional denoising algorithm, the speech signal-to-noise ratio after denoising is improved greatly. Denoising effect is obvious, signal waveform is smoother and distortion is less.

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