Which of the following is introduced in the frequency sampling realization of the FIR filter?

Poles are more in number on unit circle

Zeros are more in number on the unit circle

Poles and zeros at equally spaced points on the unit circle

Which of the following is the correct expression for h(n) in terms of H(k+ )?

( sum_{k=0}^{M-1}H(k+ )e^{j2 (k+ )n/M} ); n=0,1,2 M-1

( frac{1}{M} sum_{k=0}^{M-1}H(k+ )e^{j2 (k+ )n/M} ); n=0,1,2 M-1

( sum_{k=0}^{M-1}H(k+ )e^{j2 (k+ )n/M} ); n=0,1,2 M-1

( frac{1}{M} sum_{k=0}^{M+1}H(k+ )e^{j2 (k+ )n/M} ); n=0,1,2 M+1

( sum_{k=0}^{M+1}H(k+ )e^{j2 (k+ )n/M} ); n=0,1,2 M+1

What is the relation between H(k+ ) and h(n)?

H(k+ )= ( sum_{n=0}^M h(n)e^{-j2 (k+ )n/M} ); k=0,1,2 M

H(k+ )= ( sum_{n=0}^{M+1} h(n)e^{-j2 (k+ )n/M} ); k=0,1,2 M+1

H(k+ )= ( sum_{n=0}^{M-1} h(n)e^{-j2 (k+ )n/M} ); k=0,1,2 M-1

H(k+ )= ( sum_{n=0}^M h(n)e^{-j2 (k+ )n/M} ); k=0,1,2 M

What is the frequency response of a system with input h(n) and window length of M?

( sum_{n=0}^{M-1} h(n)e^{j n} )

( sum_{n=0}^{M-1} h(n)e^{-j n} )

13 + Mcqs in Design of Linear Phase FIR Filters by Frequency Sampling Method in Digital Signal Processing Page 1 McqOptions

1.	Why is it desirable to optimize frequency response in the transition band of the filter?
A.	Increase side lobe
B.	Reduce side lobe
C.	Increase main lobe
D.	None of the mentioned
Answer» C. Increase main lobe

Discussion

2.	What is the equation for the frequency _k in the frequency response of an FIR filter?
A.	( frac{ }{M} )(k+ )
B.	( frac{4 }{M} )(k+ )
C.	( frac{8 }{M} )(k+ )
D.	( frac{2 }{M} )(k+ )
Answer» E.

Discussion

3.	In the frequency sampling method for FIR filter design, we specify the desired frequency response Hd( ) at a set of equally spaced frequencies.
A.	True
B.	False
Answer» B. False

Discussion

4.	In a practical implementation of the frequency sampling realization, quantization effects preclude a perfect cancellation of the poles and zeros.
A.	True
B.	False
Answer» B. False

Discussion

5.	Which of the following is introduced in the frequency sampling realization of the FIR filter?
A.	Poles are more in number on unit circle
B.	Zeros are more in number on the unit circle
C.	Poles and zeros at equally spaced points on the unit circle
D.	None of the mentioned
Answer» D. None of the mentioned

Discussion

6.	The major advantage of designing linear phase FIR filter using frequency sampling method lies in the efficient frequency sampling structure.
A.	True
B.	False
Answer» B. False

Discussion

7.	The linear equations for determining {h(n)} from {H(k+ )} are not simplified.
A.	True
B.	False
Answer» C.

Discussion

8.	Which of the following is equal to the value of H(k+ )?
A.	H*(M-k+ )
B.	H*(M+k+ )
C.	H*(M+k- )
D.	H*(M-k- )
Answer» E.

Discussion

9.	Which of the following is the correct expression for h(n) in terms of H(k+ )?
A.	( frac{1}{M} sum_{k=0}^{M-1}H(k+ )e^{j2 (k+ )n/M} ); n=0,1,2 M-1
B.	( sum_{k=0}^{M-1}H(k+ )e^{j2 (k+ )n/M} ); n=0,1,2 M-1
C.	( frac{1}{M} sum_{k=0}^{M+1}H(k+ )e^{j2 (k+ )n/M} ); n=0,1,2 M+1
D.	( sum_{k=0}^{M+1}H(k+ )e^{j2 (k+ )n/M} ); n=0,1,2 M+1
Answer» B. ( sum_{k=0}^{M-1}H(k+ )e^{j2 (k+ )n/M} ); n=0,1,2 M-1

Discussion

10.	What is the relation between H(k+ ) and h(n)?
A.	H(k+ )= ( sum_{n=0}^{M+1} h(n)e^{-j2 (k+ )n/M} ); k=0,1,2 M+1
B.	H(k+ )= ( sum_{n=0}^{M-1} h(n)e^{-j2 (k+ )n/M} ); k=0,1,2 M-1
C.	H(k+ )= ( sum_{n=0}^M h(n)e^{-j2 (k+ )n/M} ); k=0,1,2 M
D.	None of the mentioned
Answer» C. H(k+ )= ( sum_{n=0}^M h(n)e^{-j2 (k+ )n/M} ); k=0,1,2 M

Discussion

11.	What is the frequency response of a system with input h(n) and window length of M?
A.	( sum_{n=0}^{M-1} h(n)e^{j n} )
B.	( sum_{n=0}^{M} h(n)e^{j n} )
C.	( sum_{n=0}^M h(n)e^{-j n} )
D.	( sum_{n=0}^{M-1} h(n)e^{-j n} )
Answer» E.

Discussion

12.	To reduce side lobes, in which region of the filter the frequency specifications have to be optimized?
A.	Stop band
B.	Pass band
C.	Transition band
D.	None of the mentioned
Answer» D. None of the mentioned

Discussion

13.	In the frequency sampling method for FIR filter design, we specify the desired frequency response H_d( ) at a set of equally spaced frequencies.
A.	True
B.	False
Answer» B. False

Discussion

Explore topic-wise MCQs in Digital Signal Processing.

Why is it desirable to optimize frequency response in the transition band of the filter?

What is the equation for the frequency k in the frequency response of an FIR filter?

In the frequency sampling method for FIR filter design, we specify the desired frequency response Hd( ) at a set of equally spaced frequencies.

In a practical implementation of the frequency sampling realization, quantization effects preclude a perfect cancellation of the poles and zeros.

Which of the following is introduced in the frequency sampling realization of the FIR filter?

The major advantage of designing linear phase FIR filter using frequency sampling method lies in the efficient frequency sampling structure.

The linear equations for determining {h(n)} from {H(k+ )} are not simplified.

Which of the following is equal to the value of H(k+ )?

Which of the following is the correct expression for h(n) in terms of H(k+ )?

What is the relation between H(k+ ) and h(n)?

What is the frequency response of a system with input h(n) and window length of M?

To reduce side lobes, in which region of the filter the frequency specifications have to be optimized?

In the frequency sampling method for FIR filter design, we specify the desired frequency response Hd( ) at a set of equally spaced frequencies.

What is the equation for the frequency _k in the frequency response of an FIR filter?

In the frequency sampling method for FIR filter design, we specify the desired frequency response H_d( ) at a set of equally spaced frequencies.