My Profile
Active Members
TodayLast 7 Days
more...
Awards & Gifts
Online Exams
Fresher Jobs
Our fresher job section is exclusively for fresh graduates! Find jobs for freshers in major Indian
cities including Bangalore, Chennai, Hyderabad, Pune or Kochi
Resources
Find educational articles, blogs, discussion threads and other resources.
Colleges
Find details about any college in India or search for courses.
|
Download Model question papers & previous years question papers
|
Posted By: tamil Member Level: Gold Posted Date: 14 Jun 2008
|
2006 Anna University B.E Electronics and Communication EC333 - DIGITAL SIGNAL PROCESSING Question paper
B.E. ELECTRONICS AND COMMUNICATION ENGINEERING
EC333 - DIGITAL SIGNAL PROCESSING
Time: 3hrs
Max Marks: 100
PART - A (10 x 2 = 20 Marks)
Answer all Questions
1. What is the system impulse response if the input and output are x(n)=(1/2)n u(n), y(n)=(1/2)n u(n) respectively?
2. Determine the circular convolution of the sequence x1 (n)={1,2,3,1}, x2 (n)={4,3,2,2}
3. What are the advantages and disadvantages of FIR over IIR filter?
4. Convert the non-recursive system H (z) = 1 + z-1 + z-2 + z-3 + z-4 into recursive system.
5. How the limit cycle oscillations due to overflow are minimized?
6. Determine the direct form realizations for the filter h (n)={1,2,3,4,3,2,1}
7. What is the effect of product Quantization due to finite word length?
8. What are the advantages of multistage implementation in multirate signal processing?
9. Define periodogram? How can it be smoothed?
10. Where will you place zero & poles in a filter to eliminate 50 Hz frequency in a sampled signal at sampling frequency F=600Hz?
PART - B (5 x 16 = 80 Marks)
11. Using FFT algorithm compute the output of linear filter described by h (n)={1,2,3,2,1} and input x(n)={1,1,1,1}
12.a) Design a Chebyshev digital low pass filter with the following specifications. pass band ripple <= 1 dB, pass band edge = 4Khz,stop band attenuation >= 40 dB, stop band edge = 6Khz & sampling rate = 24Khz. Use bilinear transformation.
(OR)
12.b) Design a Butterworth IIR filter with the following specifications
0.8 <= | H (ejw) | <= 1 0 <=? <= 0.2p
|H (ejw)| <= 0.2 0.6p <=? <= p
Use Impulse Invariant method.
13.a) Design an FIR linear phase digital filter approximating the ideal frequency response,
Hd (?) = 1, 0 <= |?| <= p/6
0, p/6<|?| <= p
Determine the coefficients of a 13-tap filter based on window method. Use hamming window.
(OR)
13.b) Design an FIR digital filter whose frequency spectral samples are
H (k) = e-j16pk/17 0 <= k <= 4
= 0 5 <= k <= 12
= e-j16p (k-17)/17 13 <= k <= 16
Use Hanning window.
14.a) Consider the system y(n) = 0.8575 y(n-1) - 0.125 y(n-2) + x(n)
i) Compute the poles & Design the cascade realizations of the system.
ii) Quantize the coefficients of the system using truncation, maintains a sign bit plus three other bits. Determine the poles of the resulting system.
iii) Determine the resulting frequency at -3dB. Assume sampling frequency as Fs= 1000Hz.
(OR)
14.b) The transfer function for an FIR filter is given by H(z)=1-1.334335z-1 + 0.9025z-1 Draw the realization diagram for each of the following cases. (i) Transversal structures (ii) a two-stage lattice structure. Calculate the values of the coefficients for the lattice structure.
15.a) Consider the signal x (n)=anu (n), |a|<1.Determine the spectrum X(?).The signal x(n) is applied to a decimator that reduces the rate by a factor of 2. Determine the output spectrum. Discuss the design criteria for anti-aliasing filter.
Or
15.b) Determine the Power Spectral density estimate of the signal x(n)=(0.9)n,0 <= n <= 20 using Blackman-Tukey method.
Return to question paper search
|
|
|
Submit Previous Years University Question Papers and make money from adsense revenue sharing program
Are you preparing for a university examination? Download model question papers
and practise before you write the exam.
|
Watch TV Channels
|