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A New On-Line Robust Approach to Design Noise-Immune Speech Recognition Systems

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Abstract

Hereafter, we present a new approach dealing to cope with the harmful effects of noise on speech recognition systems (SRS). This approach is oriented to hardware redundancy and it is essentially a modification of the classic Recovery Blocks scheme. When compared to conventional approaches using Fast Fourier Transform (FFT) and Hamming Code, the primary benefit of such a technique is to improve system performance when operating in real (i.e., noisy) environments. The second advantage is related to the considerably low complexity and reduced area overhead required for implementation. We implemented three full versions of the proposed algorithm: one running of a PC microcomputer, and a second one slightly modified to run on a TMS-320C67 Texas DSP microprocessor module. Both of them were described in the C language. Finally, a last implementation was prototyped on a HW-SW development environment based on the same Texas microprocessor and on the FLEX10K20 FPGA Altera Component.

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Authors and Affiliations

  1. Electrical Engineering Department, Catholic University –, PUCRS, Av. Ipiranga, 6681 90619-900, Porto Alegre, Brazil

    Fabian Vargas, Rubem D.R. Fagundes & Daniel Barros Jr.

Authors
  1. Fabian Vargas
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  2. Rubem D.R. Fagundes
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  3. Daniel Barros Jr.
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Vargas, F., Fagundes, R.D. & Barros, D. A New On-Line Robust Approach to Design Noise-Immune Speech Recognition Systems. Journal of Electronic Testing 19, 61–72 (2003). https://doi.org/10.1023/A:1021995929332

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