ecen_380_proposal
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| - | =====EcEn 380 MATLAB assignment proposal ===== | ||
| - | click on the link to navigate to the corresponding proposal sections. | ||
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| - | ^ Homework ^ Course topic ^ MATLAB topic ^ Related Sections ^ | ||
| - | | [[EcEn 380 proposal#HW 1|HW 1]] | Signals | | Ch1 | | ||
| - | | [[EcEn 380 proposal#HW 2|HW 2]] | LTI systems, Convolution, Causality and Stability | | 2.1-2.6 | | ||
| - | | [[EcEn 380 proposal#HW 3|HW 3]] | LTI Sinusoidal Response, Second-Order LCCDE, | | 2.7-2.9, 3.1-3.3 | | ||
| - | | ::: | Laplace transform and its properties | ::: | ::: | | ||
| - | | [[EcEn 380 proposal#HW 4|HW 4]] | Circuit examples, Transfer function, | | 3.4-3.8 | | ||
| - | | ::: | LTI system stability, invertible systems | ::: | ::: | | ||
| - | | [[EcEn 380 proposal#HW 5|HW 5]] | Interrelating Descriptions, s-domain analysis, | | 4.1-4.2, 4.5 | | ||
| - | | ::: | Fourier Transform | ::: | 5.7-5.8 | | ||
| - | | [[EcEn 380 proposal#HW 6|HW 6]] | Fourier Series, Parseval's Theorem | | 5.3-5.4, 5.7-5.8, 5.9 | | ||
| - | | [[EcEn 380 proposal#HW 7|HW 7]] | Signal Filters, Filters, Sampling | | 6.1, 6.6-6.10, 6.12 | | ||
| - | | [[EcEn 380 proposal#HW 8|HW 8]] | Fourier Transform, Sampling, Signals and Functions | | 5.7-5.8, 6.12, | | ||
| - | | ::: | Discrete-Time LTI systems, D-T Convolution | ::: | 7.1-7.5 | | ||
| - | | [[EcEn 380 proposal#HW 9|HW 9]] | Z-trans, Inverse z-trans,difference equations | | 7.5-7.12 | | ||
| - | | ::: | Transforms and BIBO stability, Freq response | ::: | ::: | | ||
| - | | [[EcEn 380 proposal#HW 10|HW 10]] | DTFS, DTFT, DFT | | 7.12-7.15 | | ||
| - | | [[EcEn 380 proposal#HW 11|HW 11]] | | | | | ||
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| - | ^ Lab ^ Topic ^ MATLAB topic/ commands ^ Time durations ^ Related Sections ^ | ||
| - | | LB 1 | Intro to MATLAB, data acquisition | sound, wavewrite, save, | two weeks | | | ||
| - | | LB 2 | LTI, Convolution, Impulse response | System of equations, conv | two weeks | 2.2,2.3,2.8 | | ||
| - | | ::: | Speaker Crossover | ::: | ::: | ::: | | ||
| - | | LB 3 | Laplace transform analysis, | freqz, roots, conv, zplane | Three weeks | 4.5,4.6,6.8 | | ||
| - | | ::: | Butter Worth Filter | ::: | ::: | ::: | | ||
| - | | LB 4 | Filter signals, aliasing | audiorecorder, audioplayer, disp, wavread, and conv. | Two Weeks | 6.12 | | ||
| - | | LB 5 | Bandpass filter | load, length, log10, exp, conv, fft, freqz, fftshift, | Three weeks | B W filters 6.8 | | ||
| - | | ::: | | zplane, filter, pwelch, rectwin, butter. | ::: | Sampling 6.12 | | ||
| - | | ::: | | ::: | ::: | D-time conv 7.5 | | ||
| - | | ::: | | ::: | ::: | z-trans 7.6 | | ||
| - | | ::: | | ::: | ::: | stability 7.11 | | ||
| - | | ::: | | ::: | ::: | sys freq resp 7.12 | | ||
| - | | ::: | | ::: | ::: | DTFT 7.14 | | ||
| - | | ::: | | ::: | ::: | DFT 7.15 | | ||
| - | | ::: | | ::: | ::: | Windowing 7.15 | | ||
| - | | ::: | | ::: | ::: | D-time filter 8.1 | | ||
| - | |||
| - | === HW 0=== | ||
| - | |||
| - | <file> | ||
| - | Introduction for those unfamiliar with MATLAB | ||
| - | </file> | ||
| - | |||
| - | === HW 1 === | ||
| - | |||
| - | <file> | ||
| - | Combined Signal transformations | ||
| - | Use the even odd synthesis to form x(t). x(t) = 1/2Xeven(t) + 1/2Xodd(t) | ||
| - | Practice creating the different waveforms in MATLAB to gain familiarity for future assignments | ||
| - | </file> | ||
| - | |||
| - | === HW 2 === | ||
| - | |||
| - | <file> | ||
| - | Create a robust function for convolution and have them visually see some of the properties: commutative, | ||
| - | associative, causal * causal, width... | ||
| - | </file> | ||
| - | |||
| - | === HW 3 === | ||
| - | |||
| - | <file> | ||
| - | LTI Sinusoidal Response (2-7). Have them compute H(w) for an RLC circuit with a sinusoidal | ||
| - | source input( either cos or sin). Plot the magnitude and phase for various frequencies to help them visualize that | ||
| - | |H(w)| is an even function and the phase <H(w) is an odd function. | ||
| - | |||
| - | Sections 2-8, and 2-9 are about impulse response of second-order LCCDEs. Lab 2 covers this material, however it | ||
| - | did seem like students struggled with it. We can create a MATLAB program that will reinforce the main ideas. | ||
| - | |||
| - | Sections 3-1 - 3-3 introduces the Laplace transform. Help students gain intuition about the properties of the | ||
| - | Laplace Transform. This would be a long project, perhaps over two weeks. | ||
| - | </file> | ||
| - | |||
| - | [[https://www.youtube.com/watch?v=ZGPtPkTft8g|Intro to Laplace]] | ||
| - | |||
| - | === HW 4 === | ||
| - | |||
| - | <file> | ||
| - | pass a signal through a system and then the invertible impulse system to get the original signal. | ||
| - | |||
| - | </file> | ||
| - | |||
| - | === HW 5 === | ||
| - | |||
| - | <file> | ||
| - | |||
| - | Design an op-amp filter with one pole. pg 150 | ||
| - | |||
| - | </file> | ||
| - | |||
| - | === HW 6 === | ||
| - | |||
| - | <file> | ||
| - | </file> | ||
| - | |||
| - | === HW 7 === | ||
| - | |||
| - | <file> | ||
| - | </file> | ||
| - | |||
| - | === HW 8 === | ||
| - | |||
| - | <file> | ||
| - | </file> | ||
| - | |||
| - | === HW 9 === | ||
| - | |||
| - | <file> | ||
| - | </file> | ||
| - | |||
| - | === HW 10 === | ||
| - | |||
| - | <file> | ||
| - | </file> | ||
| - | |||
| - | === HW 11 === | ||
| - | |||
| - | <file> | ||
| - | </file> | ||
ecen_380_proposal.1440864099.txt.gz ยท Last modified: 2015/08/29 10:01 by petersen
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