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**[[Norm of a complex exponential ECE438F11|What is the norm of a complex exponential?]] | **[[Norm of a complex exponential ECE438F11|What is the norm of a complex exponential?]] |
Revision as of 18:15, 23 February 2015
Practice Problems on Digital Signal Processing
(e.g., ECE438)
- Basic material and review
- Summation exercises
- CTFT exercises
- DTFT exercise
- Sampling and Nyquist Rate
- Z-transform and inverse z-transform
- z-transform computing with question about ROC
- Prove the scaling property of the z-transform
- compute the z-transform of this function
- Practice Question on z-transform computation
- Practice Question on inverse z-transform computation
- Computation of the z-transform
- Another computation of the z-transform
- Computation of the inverse z-transform
- Another computation of the inverse z-transform
- Compute this z-transform
- Compute this z-transform
- Compute this z-transform and obtain Fourier transform
- Obtain the inverse z-transform
- Obtain the inverse z-transform
- Obtain the inverse z-transform
- Obtain the inverse z-transform
- Obtain the inverse z-transform
- Obtain the inverse z-transform
- DFT
- Spectral Analysis of continuous-space (2D) signals
- Spectral Analysis of discrete-space (2D) signals
- Filter design
More Practice Problems on Digital Signal Processing (with solutions)
- Z transform
- Inverse z-transform: summary of theory and practice examples with solutions
- Interpolation(up-sampling) and Decimation(down-sampling)
- DFT and FFT
- LTI system
- LTI system and filter design
- Properties of LTI system
- Describe a LTI system using Difference equation, transfer function and impulse response
- Periodic Convolution
- DFT and Periodic Convolution
- 2D system
Click here for a comprehensive list of all Rhea pages in the "problem solving" category.
Back to Digital Signal Processing with Applications (ECE438)