In the 21st century, digital signal processing (DSP) is at the core of most technologies which either directly or indirectly rely on the representation and processing of digital data. All engineering disciplines in this information age need to have a basic understanding of how data from real-world experiments and systems are acquired and processed to extract usefulinformation.
In most college curricula, there are a myriad of DSP textbooks and courses that are typically accompanied by complex mathematical proofs and theoretical derivations. However, it is important to integrate classroom concepts with hardware implementations to give students experience with real world applications. Synthesizing design parameters and translating them to
work within the confines of a real-time system is an invaluable and necessary skill for modern engineers.
In this thesis, we develop a comprehensive set of laboratory experiments to demonstrate
the theory and applications of digital signal processing through the means of audio applications.