Digital Signal Processing
Class Materials
- Course Curriculum (Attachment: CO_DSP_ECEG3142.pdf)
- Continuous Assessment Plan
- 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.
- First Project
- Second Project
Resources
- Digital Signal Processing (@MIT). URL1; URL2 (Video Lectures)
- Digital Signal Processing by Alan V. Oppenheim. URL
- The Scientist and Engineer's Guide to Digital Signal Processing By Steven W. Smith, Ph.D. URL
- The BioSig Project. URL; URL1
- Danville Signal (General DSP Books, Dev Tools and Related Web Sites). URL
- dspGuru by Iowegian International. URL1; URL2
Class Materials
- Course Curriculum (Attachment: CO_DSP_ECEG3142.pdf)
- Continuous Assessment Plan
- 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.
- First Project
- Second Project
Resources
- Digital Signal Processing (@MIT). URL1; URL2 (Video Lectures)
- Digital Signal Processing by Alan V. Oppenheim. URL
- The Scientist and Engineer's Guide to Digital Signal Processing By Steven W. Smith, Ph.D. URL
- The BioSig Project. URL; URL1
- Danville Signal (General DSP Books, Dev Tools and Related Web Sites). URL
- dspGuru by Iowegian International. URL1; URL2