1. Determine the input-output equation and the frequency response in Fourier transform of the given block diagram. Given the discrete input signal x(n) = {-2, 1, 0, -3, 4) on the block diagram determine the output discrete signal. Given the values for the factors b0 = 0.5, b1 = 0.8, b3 = 0.75. Plot the discrete output signal at (1), (2) and y(n). Note you can plot signals manually or use MatLab and insert the screenshot output image. x(n) bu b₂ (1) (2) v(n)

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1. Determine the input-output equation and the frequency response in Fourier transform of the given block diagram. Given the discrete input signal x(n) = {-2, 1, 0, -3,4} on the block diagram determine the output discrete signal. Given the values for the factors b0 = 0.5, b1 = 0.8, b3 = 0.75. Plot the discrete output signal at (1), (2) and y(n). Note you can plot signals manually or use MatLab and insert the screenshot output image. x(n) bo (1) (2) y(m) 2. Apply a moving average filter using the system h(n) = [1, 1, 1]/3 on the discrete input signal x(n) = {-2, 1, 0, -3, 4). Repeat the moving average filtering process on the output filtered signal. Show the output plot for the 1st filtering and the 2nd filtering process. Note you can plot signals manually or use MatLab and insert the screenshot output image.