Please solve the whole question.
Homework Answers
Add Answer to:
An FIR filter is described by the difference equatio y(n) - x(n) - x(n -6) (a) Compute and sketch...
Determine the coefficients b0, b1, b2, of a generalized linear-phase FIR filter 1. (GLP FIR Filters]...
Determine the coefficients b0,
b1, b2, of a generalized linear-phase FIR filter
1. (GLP FIR Filters] Determine the coefficients bo, bi, b2, of a generalized linear-phase FIR filter | d[n] = box[n] + b n - 1]+b22[n – 2] such that (i) it rejects any frequency component at wo = /3; and (ii) its frequency response is normalized so that Ha(0) = 1. Compute and sketch the magnitude and phase response of the filter to check that it satisfies the...
Styles Paragraph 6. Given the difference equation y(n)-x(n-1)-0.75y(n-1)-0.125(n-2) a. Use MATLAB function filterl) and filticl) to...
Styles Paragraph 6. Given the difference equation y(n)-x(n-1)-0.75y(n-1)-0.125(n-2) a. Use MATLAB function filterl) and filticl) to calculate the system response y(n)for n 0, 1, 2, 3, 4 with the input of x(n (0.5) u(n)and initial conditions x(-1)--1, y(-2) -2, and y(-1)-1 b. Use MATLAB function filter!) to calculate the system response y(n) for n-0, 1, 2, 3,4 with the input of x(n) (0.5)"u(n)and zero initial conditions x(-1)-0, (-2)-0, and y(-1)-0 Design a 5-tap FIR low pass filter with a cutoff...
P2.19 A linear and time-invariant system is described by the difference equation y(n) 0.5y(n 10.25y(n 2)-x(n)...
P2.19 A linear and time-invariant system is described by the difference equation y(n) 0.5y(n 10.25y(n 2)-x(n) + 2r(n - 1) + r(n -3) 1. Using the filter function, compute and plot the impulse response of the system over 0n100. 2. Determine the stability of the system from this impulse response. 3. If the input to this system is r(n) 5 3 cos(0.2Tm) 4sin(0.6Tn)] u(n), determine the 200 using the filter function response y(n) over 0 n
Design a 5-tap FIR bandpass filter
Design a 5-tap FIR bandpass filter with a lower cutoff frequency of1,600 Hz, an upper cutoff frequency of 1,800 Hz, and a sampling rateof 8,000 Hz using a. rectangular window functionb. Hamming window function.Determine the transfer function and difference equation of the designedFIR system, and compute and plot the magnitude frequency responsefor Ω= 0, π/4, π/2, 3π/4, and π radians.PLEASE SHOW STEPS CLEARLY
Please show work. An FIR filter is described by the difference equation: (a) Find its impulse...
Please show work.
An FIR filter is described by the difference equation: (a) Find its impulse response h[n] and plot versus n. 1 n 0,2,4 0 elsewhere (b) Find the output when the input signal is n]-
1: A linear time-invariant system is described by the FIR difference equation (a) Write down the...
1: A linear time-invariant system is described by the FIR difference equation (a) Write down the impulse response hin) l, the frequency response H(e), and the system function H(a) of this system. 10 points) (b) Write down the expressions for the magnitude |H(e)) and the angle L) of the frequeney response) Sketch |H(e) and LM(e) with respect to . 10 points (c) Is this filter low-pass, high-pass, or band-pass? Why? [5 points) (d) Given the input z[n] = 6cos (03m...
[1].(20점) An FIR filter is given by H(a)= e-"(1+cos (ω)). (a) Find the output y[n] when the inpu...
[1].(20점) An FIR filter is given by H(a)= e-"(1+cos (ω)). (a) Find the output y[n] when the input zln]= 20s ( -6) (b) Determine the difference equation between xIn] and y[n].
[1].(20점) An FIR filter is given by H(a)= e-"(1+cos (ω)). (a) Find the output y[n] when the input zln]= 20s ( -6) (b) Determine the difference equation between xIn] and y[n].
Question 3 a) A linear-phase, Finite Impulse Response (FIR) digital filter with the transfer func...
Thanks
Question 3 a) A linear-phase, Finite Impulse Response (FIR) digital filter with the transfer function H() shown as follow is desired: (4 marks) (3 marks) iii) Based on (a)(ii), determine the truncated impulse response ha(n) for a 5-tap FIR filter by i) Sketch the spectrum of the transfer function H (w). ii) Determine the impulse response h(n) from H() using rectangular window method. (6 marks) iv) Calculate all the filter coefficient of ha (n). (5 marks)
Question 3 a)...
Topics: Filter Design by Pole Zero Placement PROBLEM Problem #2 . a) Design a simple FIR...
Topics: Filter Design by Pole Zero Placement PROBLEM Problem #2 . a) Design a simple FIR second order filter with real coefficients, causal, stable and with unity AC gain. Its steady state response is required to be zero when the input is: xIn]cos [(T/3)n] u[n] H(z) R.O.C: answer: b) Find the frequency response for the previous filter. H(0) c) Sketch the magnitude frequency response. T/3 t/3 d) Find the filter impulse response. h[n] e) Verify that the steady state step...
Problem No. P3: Type 2 Linear Phase FIR fitler A Type 2 linear phase FIR filter is given by h[n]-[-4, 1,-1, -2, 5, 6, 6, 5, -2, -1, 1,-4) Determine the amplitude response Hr(w) and the location of...
Problem No. P3: Type 2 Linear Phase FIR fitler A Type 2 linear phase FIR filter is given by h[n]-[-4, 1,-1, -2, 5, 6, 6, 5, -2, -1, 1,-4) Determine the amplitude response Hr(w) and the location of zeros of H(z) Use the code below: 2. Hr.type2: function [Hr,v,b.L) Hr_Type2(h); % Computes Amplitude response of a Type-2 LP FIR filter % Hr Amplitude Response % w- frequencies between [0 pi] over which Hr is computed % b = Type-2 LP...
Determine the coefficients b0,
b1, b2, of a generalized linear-phase FIR filter
1. (GLP FIR Filters] Determine the coefficients bo, bi, b2, of a generalized linear-phase FIR filter | d[n] = box[n] + b n - 1]+b22[n – 2] such that (i) it rejects any frequency component at wo = /3; and (ii) its frequency response is normalized so that Ha(0) = 1. Compute and sketch the magnitude and phase response of the filter to check that it satisfies the...
Styles Paragraph 6. Given the difference equation y(n)-x(n-1)-0.75y(n-1)-0.125(n-2) a. Use MATLAB function filterl) and filticl) to calculate the system response y(n)for n 0, 1, 2, 3, 4 with the input of x(n (0.5) u(n)and initial conditions x(-1)--1, y(-2) -2, and y(-1)-1 b. Use MATLAB function filter!) to calculate the system response y(n) for n-0, 1, 2, 3,4 with the input of x(n) (0.5)"u(n)and zero initial conditions x(-1)-0, (-2)-0, and y(-1)-0 Design a 5-tap FIR low pass filter with a cutoff...
P2.19 A linear and time-invariant system is described by the difference equation y(n) 0.5y(n 10.25y(n 2)-x(n) + 2r(n - 1) + r(n -3) 1. Using the filter function, compute and plot the impulse response of the system over 0n100. 2. Determine the stability of the system from this impulse response. 3. If the input to this system is r(n) 5 3 cos(0.2Tm) 4sin(0.6Tn)] u(n), determine the 200 using the filter function response y(n) over 0 n
Please show work.
An FIR filter is described by the difference equation: (a) Find its impulse response h[n] and plot versus n. 1 n 0,2,4 0 elsewhere (b) Find the output when the input signal is n]-
1: A linear time-invariant system is described by the FIR difference equation (a) Write down the impulse response hin) l, the frequency response H(e), and the system function H(a) of this system. 10 points) (b) Write down the expressions for the magnitude |H(e)) and the angle L) of the frequeney response) Sketch |H(e) and LM(e) with respect to . 10 points (c) Is this filter low-pass, high-pass, or band-pass? Why? [5 points) (d) Given the input z[n] = 6cos (03m...
[1].(20점) An FIR filter is given by H(a)= e-"(1+cos (ω)). (a) Find the output y[n] when the input zln]= 20s ( -6) (b) Determine the difference equation between xIn] and y[n].
[1].(20점) An FIR filter is given by H(a)= e-"(1+cos (ω)). (a) Find the output y[n] when the input zln]= 20s ( -6) (b) Determine the difference equation between xIn] and y[n].
Thanks
Question 3 a) A linear-phase, Finite Impulse Response (FIR) digital filter with the transfer function H() shown as follow is desired: (4 marks) (3 marks) iii) Based on (a)(ii), determine the truncated impulse response ha(n) for a 5-tap FIR filter by i) Sketch the spectrum of the transfer function H (w). ii) Determine the impulse response h(n) from H() using rectangular window method. (6 marks) iv) Calculate all the filter coefficient of ha (n). (5 marks)
Question 3 a)...
Topics: Filter Design by Pole Zero Placement PROBLEM Problem #2 . a) Design a simple FIR second order filter with real coefficients, causal, stable and with unity AC gain. Its steady state response is required to be zero when the input is: xIn]cos [(T/3)n] u[n] H(z) R.O.C: answer: b) Find the frequency response for the previous filter. H(0) c) Sketch the magnitude frequency response. T/3 t/3 d) Find the filter impulse response. h[n] e) Verify that the steady state step...
Problem No. P3: Type 2 Linear Phase FIR fitler A Type 2 linear phase FIR filter is given by h[n]-[-4, 1,-1, -2, 5, 6, 6, 5, -2, -1, 1,-4) Determine the amplitude response Hr(w) and the location of zeros of H(z) Use the code below: 2. Hr.type2: function [Hr,v,b.L) Hr_Type2(h); % Computes Amplitude response of a Type-2 LP FIR filter % Hr Amplitude Response % w- frequencies between [0 pi] over which Hr is computed % b = Type-2 LP...
Most questions answered within 3 hours.
-
During the past six months, 73.2 percent of US households
purchased sugar. Assume that these expenditures...
asked 2 seconds from now -
Which is a possible value for the principal quantum number
n?
7, 3.14 , 2.5, None...
asked 3 minutes ago -
Everyone loves a helium filled balloon for a party. Do some
basic Internet research and answer...
asked 2 minutes ago -
Here is a pair of aromatic compounds that each have a complicated
set of aromatic peaks....
asked 21 minutes ago -
As with many public goods, determining the appropriate level of
government support for the production of...
asked 24 minutes ago -
Write a balanced chemical equation for the oxidation reaction
between Caro’s acid (H2SO5) and CN– ion...
asked 27 minutes ago -
Calculate the number of valence electrons for
[Mo(C6H6)(CO)3]
asked 38 minutes ago -
Which of the following are true about the strength of the
association between two variables?
1-...
asked 34 minutes ago -
You are a monopolist and know that your consumers have a linear
demand curve. At what...
asked 33 minutes ago -
Raising a heavy load requires work. Raising it in half the time
requires:
asked 40 minutes ago -
MGT-201: Marketing Management
Before deciding on the structure of the channel marketers must
take several factors...
asked 39 minutes ago -
1. ACLs allow a router to control traffic within a network. The
concept is very similar...
asked 41 minutes ago