Parallel Computing in Time-Frequency Distributions for Doppler Ultrasound Blood Flow Instrumentation

Autores/as

  • F. García-Nocetti F Departamento de Ingeniería de Sistemas Computacionales y Automatización, IIMAS,UNAM, Apdo. Postal 20-726. Del. A.Obregón, México D.F., 01000, México.
  • J. Solano González Departamento de Ingeniería de Sistemas Computacionales y Automatización, IIMAS,UNAM, Apdo. Postal 20-726. Del. A.Obregón, México D.F., 01000, México.
  • E. Rubio Acosta Departamento de Ingeniería de Sistemas Computacionales y Automatización, IIMAS,UNAM, Apdo. Postal 20-726. Del. A.Obregón, México D.F., 01000, México.
  • E. Moreno Hernández Departamento de Ingeniería de Sistemas Computacionales y Automatización, IIMAS,UNAM, Apdo. Postal 20-726. Del. A.Obregón, México D.F., 01000, México.

Resumen

 

Doppler blood flow spectral estimation is a technique for non-invasive cardiovascular disease detection. Blood flow velocity and disturbance may be determined by measuring the spectral mean frequency and bandwidth respectively. Typical methods for spectral estimation utilize Fourier Transform-based algorithms to estimate the spectral response of a signal. This current practice suffers from poor frequency resolution when estimating non-stationary signals. The work presented here describes some alternative methods based on time-frequency distributions from a Cohen´s class point of view. Four distribution cases are evaluated: Wigner Ville, Choi Williams, Bessel and Born Jordan. A discrete distribution is formulated for each case and a criterion for determining the interaction between the spectral components of the signal is also given. Simplified discretized expressions for the implementation of distributions are formulated, these leading to a reduction of the computations realized when comparing to original definitions. A general parallel approach for the computation of the distributions is proposed, implemented and assessed using a parallel DSP-based system. Results are applied to the development of a real-time spectrum analyzer for Doppler blood flow instrumentation.

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Publicado

2001-03-21

Cómo citar

García-Nocetti F, F., Solano González, J., Rubio Acosta, E., & Moreno Hernández, E. (2001). Parallel Computing in Time-Frequency Distributions for Doppler Ultrasound Blood Flow Instrumentation. Revista Mexicana De Ingenieria Biomedica, 22(1), 8. Recuperado a partir de https://rmib.mx/index.php/rmib/article/view/418

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