Title :
Wavelet analysis [for signal processing]
Author :
Bruce, Andrew ; Donoho, David ; Gao, Hong-ye
Author_Institution :
Div. of Data Products Anal., MathSoft Inc., Seattle, WA, USA
fDate :
10/1/1996 12:00:00 AM
Abstract :
As every engineering student knows, any signal can be portrayed as an overlay of sinusoidal waveforms of assorted frequencies. But while classical analysis copes superbly with naturally occurring sinusoidal behavior-the kind seen in speech signals-it is ill-suited to representing signals with discontinuities, such as the edges of features in images. Latterly, another powerful concept has swept applied mathematics and engineering research: wavelet analysis. In contrast to a Fourier sinusoid, which oscillates forever, a wavelet is localized in time-it lasts for only a few cycles. Like Fourier analysis, however, wavelet analysis uses an algorithm to decompose a signal into simpler elements. Here, the authors describe how localized waveforms are powerful building blocks for signal analysis and rapid prototyping-and how they are now available in software toolkits
Keywords :
signal processing; software prototyping; software tools; waveform analysis; wavelet transforms; engineering students; image edge features; rapid prototyping; signal analysis; signal decomposition algorithm; signal discontinuities; signal processing; sinusoidal waveforms; software toolkits; speech signals; wavelet analysis; Algorithm design and analysis; Engineering students; Frequency; Image analysis; Mathematics; Power engineering and energy; Signal analysis; Signal processing; Speech analysis; Wavelet analysis;
Journal_Title :
Spectrum, IEEE
