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This book is the second in my music signal processing
series,
after [84]. The books can be loosely summarized by the
following ``design goals'':
- MATHEMATICS OF THE DISCRETE FOURIER TRANSFORM
All about the DFT formula and its constituents, with frequent
references to audio applications.
- INTRODUCTION TO DIGITAL
FILTERS
A gentle introduction to the analysis and implementation of digital
filters, with particular emphasis on audio applications.
- PHYSICAL AUDIO SIGNAL PROCESSING
Efficient computational physical models
for delay effects and virtual acoustic musical instruments.
- SPECTRAL AUDIO SIGNAL PROCESSING
Analysis, processing, and synthesis of audio signals in terms of
spectral representations computed using a Fast Fourier Transform
(FFT).
Figure 1:
Schematic of
interdependencies in the music signal processing book series, along
with some closely related topics.
![\includegraphics[width=4in]{eps/bookseries}](img82.png) |
Figure 1 illustrates the dependencies. A solid line
indicates a strong dependence, while a dotted line indicates a
weaker (optional) dependence.
The student is expected to pick up elementary physics
[33] and programming skills
[82,15] elsewhere. In all books, the main
chapters contain approximately what is covered in class, while the
appendices provide both elementary background material and additional
advanced topics.
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