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Problem 4.1 Using the course Matlab dtft function compute the magnitude, and phase for the following...
Using the course Matlab dtft function compute the magnitude, and phase for the following discrete-time signal а) x(п) -п(09)[«(п)-и (п-21)] F [(a) -и (п- 40)] b) x (п) - =coS n 10 4 u -- Using the course Matlab dtft function compute the magnitude, and phase for the following discrete-time signal а) x(п) -п(09)[«(п)-и (п-21)] F [(a) -и (п- 40)] b) x (п) - =coS n 10 4 u --
Please solve using MATLAB. Write a MATLAB function to compute and plot the output of the discrete-time system for x[n]-u[n], 0 < n < 1000. Based on these results can you make a statement regarding the stability of the system? Hint: Check the value y[600]
Problem 3.) Find and plot X(w) and X(w), the magnitude and DTFT for the signal x[n] given by a) b) x[n]= cos(-n) x[n]-(-1)" (a)"u[n] for 0< a〈 1
Lab #2 Discrete-time Fourier Transform (DTFT) OBJECTIVES: • Explore the DTFT, its meanings and concepts. • Get acquainted with Matlab/Octave 1) Start MATLAB and change the “Current Directory” in the top of the window (or type) >> cd '' (example: >> cd 'C:\NIU\lab2') Alternatively, if you don't want to use MATLAB, you can open a web-browser and go to “octave-online.net”. 2) Download and execute LAB2forStudent_A.M with >> lab2forStudent_A and observe that it produces a Discrete-Time (DT) signal xVec. 3) TO...
Problem (8) MATLAB Problem) Write a Matlab Function that plots the of the following signal in the discrete time domain for any value of the shift k and for any range of it: nak *(1 – k) = fccm (c(n - keink 0. n<R Problem (9) MATLAB Problem) Subplot the following signals in the same figure choose an appropriate range for : x(n) = b cos (0.1bana ym) = 2"sin (0.1b mn + ) וחו
solve using MatLab please. HW - 1 Use a cover page Word file attached for the homework solution. Solve all questions using Word and the Matlab output should be copied into the Word file. All questions and answers should be numbered HW1.1 Generate the following sequences using the basic MATLAB signal functions and the basic MATLAB signal operations discussed in this chapter. Plot signal samples using the stem function. 1- x(n) = n°[u(n+5] – u(n-6) + 105(n) + 20(0.5)* [u(n-4)...
MATLAB CODE IS REQUIRED** Let x[n] = n(0.9)nu[n]. (a) Determine the DTFT X ̃ (ejω) of x[n]. (b) Choose first N = 20 samples of x[n] and compute the approximate DTFT X ̃N(ejω) using the fft function. Plot magnitudes of X ̃(ejω) and X ̃N(ejω) in one plot and compare your results. (c) Repeat part (b) using N = 50. (d) Repeat part (b) using N = 100.
using MATLAB Q5. Let x(n) = T(n) be the next function: T(n) = [0.5 +0.5cos(in/N)] Where N = 50 and n = [0 : M]. Using the properties of the DTFT, determine and plot the DTFT (magnitude and phase normalized in w) of the following: 1. X(n) = T(-n). 2. X(n) = T(n) enten
Consider the discrete time signal x[n]: 13 -5 10 2.5 Compute the discrete time Fourier transform (DTFT) X (A). Find the period ofX(Q). Hint: First write the x[n] showed above as two pulse functions then take the DTFT using the equation given below Express discrete Fourier transform (DFT) of x[n] using DTFT X(Q). a. b. Consider the discrete time signal x[n]: 13 -5 10 2.5 Compute the discrete time Fourier transform (DTFT) X (A). Find the period ofX(Q). Hint: First...
Please help with the following continuous and discreet problem! Thanks! 6. Using the definition compute the inverse DTFT for the following signal (2m + 1)π NE 6. Using the definition compute the inverse DTFT for the following signal (2m + 1)π NE