(d) A test on unknown LTI system is conducted by given an impulse as the input....

The signal x[n] is the input of an LTI system with impulse function of h[n]. x[n]...

The signal x[n] is the input of an LTI system with impulse function of h[n]. x[n] = (0.4)^n u[n] and h[n] = (0.2)^n u[n]. (a) What is the DTFT of the output of the LTI system? (b) What are the Energy density spectrums of the input and output signals? (c) What would be the inverse DTFT: X(w) = 1/(1-0.25e^-j(w-2)) (d) How would part (c) differ for the DTFT: X(w) = 1/(1-0.25e^-j(w-2)) + 1/(1-0.25e^-j(w+2))

For the LTI system described by the following system functions, determine (i) the impulse response (ii)...

For the LTI system described by the following system functions, determine (i) the impulse response (ii) the difference equation representation (iii) the pole-zero plot, and (iv) the steady state output y(n) if the input is x[n] = 3cos(πn/3)u[n]. a. H(z) = (z+1)/(z-0.5), causal system (Hint: you need to express H(z) in z-1 to find the difference equation ) b. H(z) = (1 + z-1+ z-2)/(1-1.7z-1+0.6z-2), stable system c. Is the system given in (a) stable? Is the system given in...

An LTI system has an impulse answer of h[n] = a^(n)H[n], H[n] is the Heaviside step...

An LTI system has an impulse answer of h[n] = a^(n)H[n], H[n] is the Heaviside step function. Obtain the output y[n] from the system when the input is x[n]=H[n]. 2. Consider the discrete system defined by> y[n] - ay[n-1] =x[n] Find the output when the input is x[n] = Kb^(n)H[n], and y[-1]=y_(-1)\ Find the output when the input is x[n] = K ẟ [n], and y[-1]=a Find the impulse response when the system is initially at rest. Find the Heaviside...

Solve this signal problem. Suppose the output y[n] of a DT LTI system with input x[n]...

Solve this signal problem. Suppose the output y[n] of a DT LTI system with input x[n] is y[n-1] - 10/3y[n] + y[n+1] = x[n] The system is stable and the impulse response of h[n] = A1*(B1)^n*C1 + A2*(B2)^n*C2 is then, What is A1? What is B1? What is C1? What is A2? What is B2? What is C2?

Suppose the impulse responses of ℎ?[?] is given as: ℎ1 = 0.7?−1?[? − 1] (a) Is...

Suppose the impulse responses of ℎ?[?] is given as: ℎ1 = 0.7?−1?[? − 1] (a) Is ℎ?[?] stable? Justify your answer. (b) If it is required that ℎ[?] = 0.7??[?], find ℎ?[?]. (c) Based on your answer in (b), if ?[?] = ?[? − 1] + 2?[? − 2] + 3?[? − 3]. Find ?[?] and write it in terms of ℎ?[?]. (d) If ?[?] = ?[?] + ?[? − 1] − 2?[? − 2] is the input to this...

An LTI discrete-time system has the impulse response h[n] = (1.2)^n * u[-n]. Find the system...

An LTI discrete-time system has the impulse response h[n] = (1.2)^n * u[-n]. Find the system response to a unit step input x[n] = u[n]. Please explain the shifting im having a hard time grasping the concept (especially for the U[-n+k] shift Note:u[n] is the unit step function

Consider an LTI system whose frequency response is undesirable; the distorting system function is given as:...

Consider an LTI system whose frequency response is undesirable; the distorting system function is given as: Hdz=(1-0.8ej0.4πz-1)(1-0.8e-j0.4πz-1)(1-1.5ej0.6πz-1)(1-1.5e-j0.6πz-1) Assume the distorting function is both causal and stable. Design and examine compensation system Hc(z) such that when a signal sn is transmitted through this communication channel then perfect compensation is achieved i.e. scn=sn. b)   Determine the impulse response h[n] by using the inverse Z transform. Hz=log1+az-1+2Z-5,             z>a c) For what value of a will be the impulse response both stable and causal?...

Given an input signal x[n], and the impulse response h[n], compute the output signal. x[n] =...

Given an input signal x[n], and the impulse response h[n], compute the output signal. x[n] = a^n * u[1-n]          for |a| > 1 h[n] = u[2-n]

Find the pole and zero values for the system whose input-output relation is given below and...

Find the pole and zero values for the system whose input-output relation is given below and show them in the z plane. Also calculate the impulse response of this system. y[n-1] - (10/3)y[n] + y[n+1] = x[n]

Problem 1 Consider the discrete-time LTI system characterized by the following difference equation with input and...

Problem 1 Consider the discrete-time LTI system characterized by the following difference equation with input and initial conditions specified: y[n] - 2 y[n-1] – 3 y[n-2] = x[n] , with y[0] = -1 and y[1] = 0, x[n] = (-1/2)n u[n-2]. ? Write a MATLAB program to simulate this difference equation. You may try the commands ‘filter’ or ‘filtic’ or create a loop to compute the values recursively. ? Printout and plot the values of the input signal, x[n] and...