201110040029000140029111100_Z10140799803648886

201110040029000140029111100_Z10140799803648886 - RANDOM...

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Unformatted text preview: RANDOM SIGNALS AND NOISE Course # 40029 Jerusalem College of Engineering Autumn Semester 2010 Problem Sets for the Semester Revised 31 October 2010 Prof. I. Kalet 1 RANDOM SIGNALS AND NOISE Jerusalem College of Engineering Autumn Semester 2010 Problem Set # 1 Problem Set Due Date: 19 October 2010 Problems (1-5) are from the book (MC) by S. Miller and D. G. Childers, “Probability and Random Processes: With Applications to Signal Processing and Communications”, Elsevier-Academic Press, 2004. Problems # 1-3 Chapter 2-Problems 2.18, 2.19, 2.24 and 2.27 Problems # 4 and 5 Chapter 3-Problems 3.1 and 3.10 Problem # 6 Find the E{k},E{k 2 } and the Variance of k, for a binomial probability distribution. 2 RANDOM SIGNALS AND NOISE Jerusalem College of Engineering Autumn Semester 2010 Problem Set # 2 Due Date: 2 November 2010 Problems are from the book (MC) by S. Miller and D. G. Childers, “Probability and Random Processes: With Applications to Signal Processing and Communications”, Elsevier-Academic Press, 2004. Problems 1-4 Chapter 4- Problems 4.3, 4.4, 4.15, 4.16 , 4.20 Problems 5-6 Chapter 5- Problems 5.16, 5.21 3 RANDOM SIGNALS AND NOISE Jerusalem College of Engineering Autumn Semester 2010 Problem Set #3 Due Date: 9 November 2010 The first six problems are taken from (MC) S. Miller and D. G. Childers, “Probability and Random Processes: With Applications to Signal Processing and Communications”, Elsevier-Academic Press, Second Edition, 2004. Problems # 1-6 (MC) Chapter 8-Problems 8.1, 8.2, 8.7, 8.8, 8.11 and 8.20 The next two problems are taken from S. Haykin, “Communications Systems”, J. Wiley and Sons, New York, Fourth Edition, 2001. Problem # 7 and 8- Chapter I, Problems 1.5 and 1.8 Problems 1.5 and 1.8, are taken from Chapter I, of Haykin’s Book (which may be found in the library-If you have any problem finding these problems please let me know). 4 RANDOM SIGNALS AND NOISE Jerusalem College of Engineering Autumn Semester 2010 Problem Set # 4 Due Date: 16 November 2010 Problem # 1 Consider the signal, x(t), shown below, which resembles the random telegraph signal. In this signal, which started at time “t” equal to - ∞ and will continue until time “t” equal to + ∞ , the voltage flips back and forth, between A volts, and 0 volts, in the following manner....
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This note was uploaded on 01/22/2011 for the course ELEN E4815 taught by Professor Yossi during the Spring '10 term at Punjab Engineering College.

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201110040029000140029111100_Z10140799803648886 - RANDOM...

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