Compute the unit-pulse response h[n] for the discrete-time system y[n + 2] - 2y[n + 1] + y[n] = x[n] (for n = 0, 1, 2, 3).
Compute the unit-pulse response h[n] for the discrete-time system y[n + 2] - 2y[n + 1]...
1. Compute the unit-pulse response h[n] for n=0, 1, 2 for the discrete time system y[n+ 2] + [n+1] + [n] = {n+1]- x[n]
Compute the unit-pulse response h[n] for n=0, 1, 2 for the discrete time system y(n+2)+0.5y(n+1)+0.25y(n)=x(n+1)-x(n)
Compute the unit-pulse response h[n] for n=0, 1, 2 for the discrete time system y(n+2)+0.5y(n+1)+0.25y(n)=x(n+1)-x(n) "DO NOT USE Z-TRANSFORM"
Consider a discrete-time system with unit pulse response h[n] given by 0, no h [n] = 3, n=1 4, n=2 0,n3 Obtain the state representation of this system in controller canonical form, showing all steps.
Consider a discrete-time system with frequency response given by HO OSN< -<N<0 Determine the unit pulse response of this system, showing all your workings.
A discrete-time system has a difference equation given by y(n) = y(n-1) - 2y(n-2) + x(n) + 2x(n-1) + x(n-2). (a) Find h(n) using iteration. (b) Find the system's z-transfer function H(z). (c) Assume x(n) = δ(n) - 2δ(n-1) + 3δ(n-2). Find y(3) using any method you like. (d) Is this system a FIR or IRR system? How can you tell?
6) Consider a discrete-time LTI system with impulse response h[n] = response h[n] = ( 1) u[n]. Use Fourie transforms to determine the response of this system to the input x[n] = ml + un).
The impulse response of a discrete time system is given by h(n) 1-121 To such a system apply an input of the type we x(n) [2 1 2 3 Use MATLAB to convolve the two sequences and enter the answer below.
The impulse response of a discrete time system is given by h(n) 1-121 To such a system apply an input of the type we x(n) [2 1 2 3 Use MATLAB to convolve the two sequences and enter the answer below. The impulse response of a discrete time system is given by h(n) 1-121 To such a system apply an input of the type we x(n) [2 1 2 3 Use MATLAB to convolve the two sequences and enter the...
Question 6 (3 points) Find the unit impulse response of the following discrete-time system y[k + 1] + 2y[k] = f[k]