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Fourier and Wavelet Transformations Michael J. Watts

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Presentation on theme: "Fourier and Wavelet Transformations Michael J. Watts"— Presentation transcript:

1 Fourier and Wavelet Transformations Michael J. Watts http://mike.watts.net.nz

2 Lecture Outline Signals Properties of waves Fourier transformations Discrete and Fast Fourier Transformations Wavelet transformations

3 Signals What is a signal? Change in a variable over time Many things can be treated as signals  Sound  Light  Images  DNA Signal processing is an important field in computing

4 Properties of Waves Displacement in a medium Waves are signals Waves can interfere with one another  Constructive  Destructive  Beats Complex waves can be created  Use a large (possibly infinite) number of component waves

5 Properties of Waves Visualisation of waves  Time domain  Frequency domain Time domain is traditional  Amplitude vs time Frequency domain is more useful for analysis

6 Fourier Transformations Convert a signal into the frequency domain Separates signal in components Useful for many things  Analysis of the signal  Noise suppression  Signal modeling Speech recognition

7 Fourier Transformations Discrete Fourier Transforms  DFT Used for discretised signals  Ergo, digital signals Fast Fourier Transforms  FFT Efficient implementation of the DFT  Does the same thing quicker

8 Wavelet Transformations What is a wavelet? Two main properties  Limited duration  Average value of zero A wavelet fades in and fades out Wavelet analysis breaks a signal into its component wavelets

9 Wavelet Analysis Wavelet coefficients can be recombined to form the original signal Wavelets have many applications  Noise filtering  Compression Wavelets are used when FFT don't work

10 Summary Fourier transforms break signals into component sinusoids Used in many signal processing applications DFT applied to DSP  FFT is an implementation of DFT Wavelet transforms break signal into component wavelets Used in signal compression among others

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