Richard Hamming
Richard Wesley Hamming (
February 11,
1915 –
January 7,
1998) was a
mathematician whose work had many implications for
computer science and
telecommunications. His contributions include the
Hamming code (which makes use of a
Hamming matrix), the
Hamming window (described in section 5.8 of his book
Digital Filters),
Hamming numbers,
Sphere-packing (or
hamming bound) and the
Hamming distance.
He was born in
Chicago, Illinois and died in
Monterey, California. He received his bachelor's degree from the
University of Chicago in 1937, a master's degree from the
University of Nebraska in 1939, and finally a
Ph.D. from the
University of Illinois at Urbana-Champaign in 1942. He was a professor at the
University of Louisville during
World War II, and left to work on the
Manhattan Project in
1945, programming one of the earliest electronic digital computers to calculate the solution to equations provided by the project's physicists. The objective of the program was to discover if the detonation of an
atomic bomb would ignite the
atmosphere. The result of the computation was that this would not occur, and so the
United States used the bomb, first in a test in
New Mexico, and then twice against
Japan.
Later 1946-1976 he worked at the
Bell Telephone Laboratories, where he collaborated with
Claude E. Shannon.On
July 23 1976 he moved to the
Naval Postgraduate School, where he worked as an
Adjunct Professor until 1997,when he became
Professor Emeritus.
He was a founder and president of the
Association for Computing Machinery.
*
Association for Computing Machinery Turing Award, 1968.
* Fellow of the
IEEE, 1968.
* IEEE
Emanuel R. Piore Award, 1979.
* Member of the
National Academy of Engineering, 1980.
*
University of Pennsylvania Harold Pender Award, 1981.
* IEEE
Richard W. Hamming Medal, 1988.
*
Eduard Rhein Award, 1996.
The
Richard W. Hamming Medal is an award given annually by IEEE for 'exceptional contributions to information sciences, systems and technology'.
*
IEEE Richard W. Hamming MedalNumerical Methods for Scientists and Engineers,
McGraw-Hill, 1962; second edition 1973. Dover paperback reprint 1985.
Calculus and the Computer Revolution,
Houghton-Mifflin, 1968.
Introduction To Applied Numerical Analysis, McGraw-Hill, 1971.
Computers and Society, McGraw-Hill, 1972.
Digital Filters,
Prentice Hall, 1977; second edition 1983; third edition 1989. ISBN 048665088X Dover paperback reprint, ca. 2001.
Coding and Information Theory, Prentice Hall 1980; second edition 1986.
Methods of Mathematics Applied to Calculus, Probability, and Statistics, Prentice Hall, 1985. Dover paperback reprint, ca. 2005. Unconventional introductory textbook which attempts to both teach calculus and give some idea of what it is good for at the same time. Might be of special interest to someone
teaching an introductory calculus course using a conventional textbook, in order to pick up some new pedagogical viewpoints.
The Art of Probability for Scientists and Engineers,
Addison-Wesley, 1991.
The Art of Doing Science and Engineering: Learning to Learn,
Gordon and Breach, 1997. Entertaining and instructive. Hamming tries to extract general lessons to aid one in having a successful technical career by telling stories from his own experiences. (Some of this material relating to the self-management of one's technical career can be found online at the
You and Your Research link; see below.) One of Hamming's lessons is never trust without question someone who claims to be giving you highly accurate data to analyze culinary experiences, in Schank's case.
* "Machines should work. People should think."
* "Does anyone believe that the difference between the
Lebesgue and
Riemann integrals can have physical significance, and that whether say, an airplane would or would not fly could depend on this difference? If such were claimed, I should not care to fly in that plane."
* "There are wavelengths that people cannot see, there are sounds that people cannot hear, and maybe computers have thoughts that people cannot think."
* "The purpose of computing is insight, not numbers."
* "
Newton said, 'If I have seen further than others, it is because I've stood on the shoulders of giants.'
These days we stand on each other's feet!" (
You and Your Research)
* What are the most important problems in your field? Are you working on one of them? Why not? (Generalization from
You and Your Research)
* "The Institute for Advanced Study in Princeton, in my opinion, has ruined more good scientists than any institution has created." (
You and Your Research)
* "It is better to solve the right problem the wrong way than to solve the wrong problem the right way."
* "Beware of finding what you're looking for." [
1]
*
FOLDOC:
Richard Hamming (bio)* Richard Hamming,
You and Your Research
