D'oh! fourier : theory, applications, and derivatives
Material type:
TextSeries: Primers in electronics and computer sciencePublication details: New Jersey World scientific 2022Description: xviii, 286 pages : illustrations (some color)ISBN: 9781800611108Subject(s): Fourier analysis | Fourier transformationsDDC classification: 515.723 Summary: "D'oh! Fourier introduces the Fourier transform and is aimed at undergraduates in Computer Science, Mathematics, and Applied Sciences, as well as for those wishing to extend their education. Formulated around ten key points, this accessible book is light-hearted and illustrative, with many applications. The basis and deployment of the Fourier transform are covered using an applied rather than theoretical approach, employing real-world examples throughout. The key components of the textbook are continuous signals analysis, discrete signals analysis, image processing, applications of Fourier analysis, together with the origin and nature of the transform itself. D'oh! Fourier is reproducible via MATLAB/Octave and is supported by a comprehensive website which provides the code contained within the book"--
| Item type | Current library | Collection | Call number | Status | Date due | Barcode |
|---|---|---|---|---|---|---|
BK
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Stack | Stack | 515.723 NIX/D (Browse shelf (Opens below)) | Available | 58870 |
"D'oh! Fourier introduces the Fourier transform and is aimed at undergraduates in Computer Science, Mathematics, and Applied Sciences, as well as for those wishing to extend their education. Formulated around ten key points, this accessible book is light-hearted and illustrative, with many applications. The basis and deployment of the Fourier transform are covered using an applied rather than theoretical approach, employing real-world examples throughout. The key components of the textbook are continuous signals analysis, discrete signals analysis, image processing, applications of Fourier analysis, together with the origin and nature of the transform itself. D'oh! Fourier is reproducible via MATLAB/Octave and is supported by a comprehensive website which provides the code contained within the book"--
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