What is the number of filter coefficients that specify the frequency response for h(n) anti-symmetric?

(M+1)/2 when M is even and M/2 when M is odd

(M-1)/2 when M is even and M/2 when M is odd

(M-1)/2 when M is odd and M/2 when M is even

(M+1)/2 when M is even and M/2 when M is odd

(M+1)/2 when M is odd and M/2 when M is even

What is the number of filter coefficients that specify the frequency response for h(n) symmetric?

(M-1)/2 when M is odd and M/2 when M is even

(M-1)/2 when M is even and M/2 when M is odd

(M+1)/2 when M is even and M/2 when M is odd

(M+1)/2 when M is odd and M/2 when M is even

WHAT_IS_THE_NUMBER_OF_FILTER_COEFFICIENTS_THAT_SPECIFY_THE_FREQUENCY_RESPONSE_FOR_H(N)_SYMMETRIC??$

(M-1)/2 when M is odd and M/2 when M is even

(M-1)/2 when M is even and M/2 when M is odd

(M+1)/2 when M is even and M/2 when M is odd

(M+1)/2 when M is odd and M/2 when M is even

What_is_the_number_of_filter_coefficients_that_specify_the_frequency_response_for_h(n)_anti-symmetric?$

(M+1)/2 when M is even and M/2 when M is odd

(M-1)/2 when M is even and M/2 when M is odd

(M-1)/2 when M is odd and M/2 when M is even

(M+1)/2 when M is even and M/2 when M is odd

(M+1)/2 when M is odd and M/2 when M is even

Which of the following condition should the unit sample response of a FIR filter satisfy to have a linear phase?

-h(M-1-n) n=0,1,2‚Äö√Ñ√∂‚àö√ë¬¨‚àÇM-1

h(M-1-n) n=0,1,2‚Äö√Ñ√∂‚àö√ë¬¨‚àÇM-1

¬¨¬®¬¨¬±h(M-1-n) n=0,1,2‚Äö√Ñ√∂‚àö√ë¬¨‚àÇM-1

-h(M-1-n) n=0,1,2‚Äö√Ñ√∂‚àö√ë¬¨‚àÇM-1

18 + Mcqs in Design Fir Filters in Digital Signal Processing Page 1 McqOptions

1.	The anti-symmetric condition with M even is not used in the design of which of the following linear-phase FIR filter?
A.	Low pass
B.	High pass
C.	Band pass
D.	Bans stop
Answer» B. High pass

Discussion

2.	Which of the following is not suitable either as low pass or a high pass filter?
A.	h(n) symmetric and M odd
B.	h(n) symmetric and M even
C.	h(n) anti-symmetric and M odd
D.	h(n) anti-symmetric and M even
Answer» D. h(n) anti-symmetric and M even

Discussion

3.	What is the number of filter coefficients that specify the frequency response for h(n) anti-symmetric?
A.	(M-1)/2 when M is even and M/2 when M is odd
B.	(M-1)/2 when M is odd and M/2 when M is even
C.	(M+1)/2 when M is even and M/2 when M is odd
D.	(M+1)/2 when M is odd and M/2 when M is even
Answer» C. (M+1)/2 when M is even and M/2 when M is odd

Discussion

4.	What is the number of filter coefficients that specify the frequency response for h(n) symmetric?
A.	(M-1)/2 when M is odd and M/2 when M is even
B.	(M-1)/2 when M is even and M/2 when M is odd
C.	(M+1)/2 when M is even and M/2 when M is odd
D.	(M+1)/2 when M is odd and M/2 when M is even
Answer» E.

Discussion

5.	The roots of the equation H(z) must occur in ________________
A.	Identical
B.	Zero
C.	Reciprocal pairs
D.	Conjugate pairs
Answer» D. Conjugate pairs

Discussion

6.	The roots of the polynomial H(z) are identical to the roots of the polynomial H(z-1).
A.	True
B.	False
Answer» B. False

Discussion

7.	If H(z) is the z-transform of the impulse response of an FIR filter, then which of the following relation is true?
A.	zM+1.H(z-1)=&pm;H(z)
B.	z-(M+1).H(z-1)=&pm;H(z)
C.	z(M-1).H(z-1)=&pm;H(z)
D.	z-(M-1).H(z-1)=&pm;H(z)
Answer» E.

Discussion

8.	WHAT_IS_THE_NUMBER_OF_FILTER_COEFFICIENTS_THAT_SPECIFY_THE_FREQUENCY_RESPONSE_FOR_H(N)_SYMMETRIC??$
A.	(M-1)/2 when M is odd and M/2 when M is even
B.	(M-1)/2 when M is even and M/2 when M is odd
C.	(M+1)/2 when M is even and M/2 when M is odd
D.	(M+1)/2 when M is odd and M/2 when M is even
Answer» E.

Discussion

9.	Which of the following is not suitable either as low pass or a high pass filter?$
A.	h(n) symmetric and M odd
B.	h(n) symmetric and M even
C.	h(n) anti-symmetric and M odd
D.	h(n) anti-symmetric and M even
Answer» D. h(n) anti-symmetric and M even

Discussion

10.	What_is_the_number_of_filter_coefficients_that_specify_the_frequency_response_for_h(n)_anti-symmetric?$
A.	(M-1)/2 when M is even and M/2 when M is odd
B.	(M-1)/2 when M is odd and M/2 when M is even
C.	(M+1)/2 when M is even and M/2 when M is odd
D.	(M+1)/2 when M is odd and M/2 when M is even
Answer» C. (M+1)/2 when M is even and M/2 when M is odd

Discussion

11.	The anti-symmetric condition is not used in the design of low pass linear phase FIR filter.
A.	True
B.	False
Answer» B. False

Discussion

12.	The_anti-symmetric_condition_with_M_even_is_not_used_in_the_design_of_which_of_the_following_linear-phase_FIR_filter?
A.	Low pass
B.	High pass
C.	Band pass
D.	Bans stop
Answer» B. High pass

Discussion

13.	What is the value of h(M-1/2) if the unit sample response is anti-symmetric?
A.	0
B.	1
C.	-1
D.	None of the mentioned
Answer» B. 1

Discussion

14.	If the unit sample response h(n) of the filter is real, complex valued roots need not occur in complex conjugate pairs.
A.	True
B.	False
Answer» C.

Discussion

15.	The roots of the equation H(z) must occur in:
A.	Identical
B.	Zero
C.	Reciprocal pairs
D.	Conjugate pairs
Answer» D. Conjugate pairs

Discussion

16.	The roots of the polynomial H(z) are identical to the roots of the polynomial H(z -1).
A.	True
B.	False
Answer» B. False

Discussion

17.	Which of the following condition should the unit sample response of a FIR filter satisfy to have a linear phase?
A.	h(M-1-n) n=0,1,2‚Äö√Ñ√∂‚àö√ë¬¨‚àÇM-1
B.	¬¨¬®¬¨¬±h(M-1-n) n=0,1,2‚Äö√Ñ√∂‚àö√ë¬¨‚àÇM-1
C.	-h(M-1-n) n=0,1,2‚Äö√Ñ√∂‚àö√ë¬¨‚àÇM-1
D.	None of the mentioned
Answer» C. -h(M-1-n) n=0,1,2‚Äö√Ñ√∂‚àö√ë¬¨‚àÇM-1

Discussion

18.	The lower and upper limits on the convolution sum reflect the causality and finite duration characteristics of the filter.
A.	True
B.	False
Answer» B. False

Discussion

Explore topic-wise MCQs in Digital Signal Processing.

The anti-symmetric condition with M even is not used in the design of which of the following linear-phase FIR filter?

Which of the following is not suitable either as low pass or a high pass filter?

What is the number of filter coefficients that specify the frequency response for h(n) anti-symmetric?

What is the number of filter coefficients that specify the frequency response for h(n) symmetric?

The roots of the equation H(z) must occur in ________________

The roots of the polynomial H(z) are identical to the roots of the polynomial H(z-1).

If H(z) is the z-transform of the impulse response of an FIR filter, then which of the following relation is true?

WHAT_IS_THE_NUMBER_OF_FILTER_COEFFICIENTS_THAT_SPECIFY_THE_FREQUENCY_RESPONSE_FOR_H(N)_SYMMETRIC??$

Which of the following is not suitable either as low pass or a high pass filter?$

What_is_the_number_of_filter_coefficients_that_specify_the_frequency_response_for_h(n)_anti-symmetric?$

The anti-symmetric condition is not used in the design of low pass linear phase FIR filter.

The_anti-symmetric_condition_with_M_even_is_not_used_in_the_design_of_which_of_the_following_linear-phase_FIR_filter?

What is the value of h(M-1/2) if the unit sample response is anti-symmetric?

If the unit sample response h(n) of the filter is real, complex valued roots need not occur in complex conjugate pairs.

The roots of the equation H(z) must occur in:

The roots of the polynomial H(z) are identical to the roots of the polynomial H(z -1).

Which of the following condition should the unit sample response of a FIR filter satisfy to have a linear phase?

The lower and upper limits on the convolution sum reflect the causality and finite duration characteristics of the filter.