Digital Signal Processing

Class Materials

1. Course Curriculum (Attachment: CO_DSP_ECEG3142.pdf)
2. Continuous Assessment Plan
3. Introduction - url; Discrete-time signals and systems, part 1 - url1, url2; Discrete-time signals and systems, part 2 - url1, url2; The discrete-time Fourier transform - url1, url2; The z-transform - url1, url2; The inverse z-transform - url1, url2; Z-transform properties - url1, url2; The discrete Fourier series - url1, url2; The discrete Fourier transform - url1, url2; Circular convolution - url1, url2; Representation of linear digital networks - url1, url2; Network structures for infinite impulse response (IIR) systems - url1, url2; Network structures for finite impulse response (FIR) systems and parameter quantization effects in digital filter structures - url1, url2; Design of IIR digital filters, part 1 - url1, url2; Design of IIR digital filters, part 2 - url1, url2, url3; Digital Butterworth filters - url1, url2, url3; Design of FIR digital filters - url1, url2, url3; Computation of the discrete Fourier transform - url1, url2, url3, url4, url5, url6, url7.

Projects

Note: Student is required to write a report and give one in class presentation on each project.

1. First Project
2. Second Project

Resources

1. Digital Signal Processing (@MIT). URL1; URL2 (Video Lectures)
2. Digital Signal Processing by Alan V. Oppenheim. URL
3. The Scientist and Engineer's Guide to Digital Signal Processing By Steven W. Smith, Ph.D. URL
4. The BioSig Project. URL; URL1
5. Danville Signal (General DSP Books, Dev Tools and Related Web Sites). URL
6. dspGuru by Iowegian International. URL1; URL2

Class Materials

1. Course Curriculum (Attachment: CO_DSP_ECEG3142.pdf)
2. Continuous Assessment Plan
3. Introduction - url; Discrete-time signals and systems, part 1 - url1, url2; Discrete-time signals and systems, part 2 - url1, url2; The discrete-time Fourier transform - url1, url2; The z-transform - url1, url2; The inverse z-transform - url1, url2; Z-transform properties - url1, url2; The discrete Fourier series - url1, url2; The discrete Fourier transform - url1, url2; Circular convolution - url1, url2; Representation of linear digital networks - url1, url2; Network structures for infinite impulse response (IIR) systems - url1, url2; Network structures for finite impulse response (FIR) systems and parameter quantization effects in digital filter structures - url1, url2; Design of IIR digital filters, part 1 - url1, url2; Design of IIR digital filters, part 2 - url1, url2, url3; Digital Butterworth filters - url1, url2, url3; Design of FIR digital filters - url1, url2, url3; Computation of the discrete Fourier transform - url1, url2, url3, url4, url5, url6, url7.

Projects

Note: Student is required to write a report and give one in class presentation on each project.

1. First Project
2. Second Project

Resources

1. Digital Signal Processing (@MIT). URL1; URL2 (Video Lectures)
2. Digital Signal Processing by Alan V. Oppenheim. URL
3. The Scientist and Engineer's Guide to Digital Signal Processing By Steven W. Smith, Ph.D. URL
4. The BioSig Project. URL; URL1
5. Danville Signal (General DSP Books, Dev Tools and Related Web Sites). URL
6. dspGuru by Iowegian International. URL1; URL2