- How to compute the impulse response of a difference equation
- Their expression as a function of the sample index n.
- Their schematic expression.
- Review of even / odd functions and the real exponential input.
- Definition of the Continous Fourier Transform and it's inverse.
- Definition of the magnitude spectrum & the phase spectrum.
- Definition of the sufficient conditions for the continuous Fourier Transform to exist.
- Definition of the energy density spectrum
- Know Parseval's relation and that it prooves the Fourier Transform is a lossless transform.
- Definition of Lowpass / Highpass / Bandpass signals.
- Definition of the Discrete Time Fourier Transform (DTFT) and it's inverse. Note that the frequency domain is still continous in this analysis.
- Know that the DTFT is discrete time, continuous frequency.
- Know that the Inverse-DTFT is indeed exactly the originally transformed discrete signal.
- Definition of the DTFT, i.e., the analysis equation, and the Inverse-DTFT , i.e., the synthesis equation.