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Department of Electrical Engineering and Computer Science
Department of Mechanical Engineering |
6.050J / 2.110J Information and Entropy Spring 2005
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Unit 7: Processes
Schedule
Lecture |
Tuesday, Mar 15, 2005, 12:00 PM |
Room 2-105 |
Recitation |
Thursday, Mar 17, 2005, 12:00 PM |
Room 2-105 |
Problem Set |
Posted Monday, Mar 14, 2005 |
Due Friday, Mar 18, 2005 |
Solutions |
Posted Friday, Mar 18, 2005 |
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Lecture Handouts
Students who for any reason did not receive these items can pick up a copy in
Room 38-344. Most of this material is also available on the 6.050J/2.110J Web site
http://mtlsites.mit.edu/Courses/6.050.
- Unit 7 Resources (this page)
- Problem Set 7
- 6.050J/2.110J Notes
- A summary in concise mathematics (mostly algebra) of many topics in information theory,
coding, communications, by Dr. M. Z. Wang, Hong Kong, October 1996:
http://www.eie.polyu.edu.hk/~enmzwang/adc/l-notes/node4.html.
There is a section on Discrete Memoryless Channels.
- Robert G. Gallager, "Claude E. Shannon: A Retrospective on His Life, Work, and Impact,"
IEEE Transactions on Information Theory, vol. 47, no. 7, pp. 2681-2695; November, 2001.
Reading Assignment
Resources
Technical
- Claude E. Shannon, "A Mathematical Theory of Communication," Bell System
Technical Journal, vol. 27, pp. 379-423 (Part I), 623-656 (Part II); July and
October, 1948. These seminal papers are available in several forms
(see bibliographic
notes)
- PDF version
of original papers, with corrections but without Shannon's 1949 modifications
- Claude E. Shannon and Warren Weaver, "The Mathematical Theory of Communication,"
University of Illinois Press, Urbana, IL; 1949, with later editions 1963 and 1998
(incorporating a number of modifications and corrections by Shannon)
- Claude E. Shannon, "A Mathematical Theory of Communication," 50th Anniversary
Edition, printed for the 1998 IEEE International Symposium on Information Theory,
MIT, Cambridge, MA; August 16-21, 1998 (based on 1949 book, with corrections)
- Reprinted in D. Slepian, editor, Key Papers in the Development of Information
Theory, IEEE Press, New York; 1974
- Reprinted in N. J. A. Sloane and A. D. Wyner, editors, Claude Elwood Shannon:
Collected Papers, IEEE Press, New York; 1993
Because he treated a general case, Shannon was able to distinguish loss and noise,
in the way done in 6.050J/2.110J. Many others treat only channels with similar
inputs and outputs in which case often L = N so it may not be obvious why
they should be different concepts.
Historical
- Claude
E. Shannon (1916 - 2001)
obituary,
Tech Talk, MIT
- Aaron D. Wyner, The
Significance of Shannon's Work
- Robert G. Gallager, "Claude E. Shannon: A Retrospective on His Life, Work, and Impact,"
IEEE Transactions on Information Theory, vol. 47, no. 7, pp. 2681-2695; November, 2001.
- The process model is also known as Markov Processes or Markov Chains after
Andrei
A. Markov (1856 - 1922).
General Technical Books
There are many excellent texts on communications, most of which
assume a familiarity with mathematics beyond introductory calculus. Some
have treatments of the discrete memoryless channel, but not with the same
emphasis given here. Here are a few:
- Robert G. Gallager, "Information Theory and Reliable Communications," John
Wiley & Sons, Inc., New York, NY; 1968. One of the early textbooks, designed
for first-year graduate students
- Allan R. Hambley, "An Introduction to Communication Systems," Computer Science
Press; 1990
- Thomas M. Cover and Joy A. Thomas, "Elements of Information Theory," John
Wiley & Sons, Inc., New York, NY; 1991. Aimed at university seniors and first-year
graduate students. One of several excellent books of that era
- Simon Haykin, "Communication Systems," 4th edition, John Wiley and Sons, Inc.;
2001.
Help Wanted
6.050J/2.110J students: be the first to suggest a resource, for example a useful Web
site or a good book or article, to add to the list above. If your suggestion is
accepted by the 6.050J/2.110J staff, you will get a $5 ice-cream gift certificate.
Send your suggestion by e-mail during Spring 2005 to 6.050-staff (at) mit.edu.
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