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− | Today we | + | Today we talked about Fourier series. I gave a few examples of the computation of the Fourier series of a CT periodic signal, emphasizing that sometimes one does not need to use the integral formula. I made the distinction between the Fourier series coefficients, and the Fourier series. After that we moved on to DT Fourier series. I gave the definition and pointed out that, in contrast with the CT Fourier series, the DT Fourier series has a finite number of terms. Next lecture, I will give examples of computations of DT Fourier series coefficients. It still not be a bad thing if you tried the corresponding practice problem before hand, just to see if you notice the subtle differences with CT. |
== Action items before the next lecture: == | == Action items before the next lecture: == |
Revision as of 16:25, 7 February 2011
Lecture 12 Blog, ECE301 Spring 2011, Prof. Boutin
Monday February 7, 2011 (Week 5) - See Course Schedule.
Today we talked about Fourier series. I gave a few examples of the computation of the Fourier series of a CT periodic signal, emphasizing that sometimes one does not need to use the integral formula. I made the distinction between the Fourier series coefficients, and the Fourier series. After that we moved on to DT Fourier series. I gave the definition and pointed out that, in contrast with the CT Fourier series, the DT Fourier series has a finite number of terms. Next lecture, I will give examples of computations of DT Fourier series coefficients. It still not be a bad thing if you tried the corresponding practice problem before hand, just to see if you notice the subtle differences with CT.
Action items before the next lecture:
- Read Sections 3.6, 3.8 in the book.
- Begin working on the fourth homework.
- Solve the Practice problems on the Fourier series computation
- Computing the Fourier series coefficients of a CT signal
- Computing the Fourier series coefficients of a DT signal
Previous: Lecture 11
Next: Lecture 13