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ECE 501 Introduction to BME

ECE 501 Introduction to BME. Dr. Hang. ECE 501. Part V Biomedical Signal Processing Introduction to Wavelet Transform. Dr. Hang. ECE 501. Introduction. Fourier Analysis. Dr. Hang. ECE 501. Introduction. Fourier Analysis. A serious drawback: time information is lost

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ECE 501 Introduction to BME

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  1. ECE 501 Introduction to BME Dr. Hang ECE501

  2. Part V Biomedical Signal ProcessingIntroduction toWavelet Transform Dr. Hang ECE 501

  3. Introduction • Fourier Analysis Dr. Hang ECE 501

  4. Introduction • Fourier Analysis • A serious drawback: time information is lost • Cannot handle transitory characteristics Dr. Hang ECE 501

  5. Introduction • Short-Time Fourier Analysis • A compromise between the time- and frequency-based views of a signal: analyze a small section of the signal at a time • A drawback: The window is the same for all frequencies Dr. Hang ECE 501

  6. Introduction • Wavelet Analysis • A windowing technique with variable-sized regions: long time interval for low-frequency information, shorter regions for high-frequency information • Time-scale region Dr. Hang ECE 501

  7. Introduction • What is Wavelet Analysis • A wavelet is a waveform of effectively limited duration that has an average value of zero • Wavelet analysis is the breaking up of a signal into shifted and scaled versions of the original (mother) wavelet. Dr. Hang ECE 501

  8. Continuous Wavelet Transform • Fourier Analysis • The sum over all time of the signal multiplied by a complex exponential Dr. Hang ECE 501

  9. Continuous Wavelet Transform CWT The sum over all time of the signal multiplied by scaled , shifted version of the wavelet function Dr. Hang ECE 501

  10. Continuous Wavelet Transform • Scaling • Scaling a wavelet: stretching or compressing it • a: scaling factor Dr. Hang ECE 501

  11. Continuous Wavelet Transform • Scaling • Low scale High frequency • High scale Low frequency Dr. Hang ECE 501

  12. Continuous Wavelet Transform • Shifting Dr. Hang ECE 501

  13. Continuous Wavelet Transform • Five Steps to a CWT • Take a wavelet and compare it to a section at the start of the original signal • Calculate the wavelet coefficient C Dr. Hang ECE 501

  14. Continuous Wavelet Transform • Five Steps to a CWT • Shift the wavelet to the right and repeat steps 1 and 2 until the whole signal is covered. Dr. Hang ECE 501

  15. Continuous Wavelet Transform • Five Steps to a CWT • Scale the wavelet and repeat steps 1 through 3 Dr. Hang ECE 501

  16. Continuous Wavelet Transform • Five Steps to a CWT • Repeat steps 1 through 4 for all scales Dr. Hang ECE 501

  17. Continuous Wavelet Transform • Plot CWT coefficients Dr. Hang ECE 501

  18. Continuous Wavelet Transform • Plot CWT coefficients Dr. Hang ECE 501

  19. Discrete Wavelet Transform • Dyadic scales and positions: • Mallat algorithm: fast algorithm via filtering • Accurate analysis: compression, denoising Dr. Hang ECE 501

  20. Discrete Wavelet Transform • One-Stage filtering: Approximations and Details Not Efficient! Dr. Hang ECE 501

  21. Discrete Wavelet Transform • One-Stage filtering: Approximations and Details Efficient! Dr. Hang ECE 501

  22. Discrete Wavelet Transform • One-Stage filtering: Approximations and Details Dr. Hang ECE 501

  23. Discrete Wavelet Transform • One-Stage filtering: Approximations and Details Dr. Hang ECE 501

  24. Discrete Wavelet Transform • Multiple-Level Decomposition Dr. Hang ECE 501

  25. Discrete Wavelet Transform • Multiple-Level Decomposition Dr. Hang ECE 501

  26. Discrete Wavelet Transform • Wavelet Reconstruction Up Sampling Dr. Hang ECE 501

  27. Discrete Wavelet Transform • Wavelet Reconstruction Dr. Hang ECE 501

  28. Discrete Wavelet Transform • Wavelet Reconstruction Dr. Hang ECE 501

  29. Wavelet Families Daubechies family Dr. Hang ECE 501

  30. Wavelet Families Symlets Dr. Hang ECE 501

  31. Denoising • Decompose • Threshold detail coefficients • Reconstruct Dr. Hang ECE 501

  32. Denoising Two thresholding method: (1) Soft (2) Hard Dr. Hang ECE 501

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