John Rhodes (mathematician)

For other people named John Rhodes, see John Rhodes (disambiguation).

John Rhodes
John Rhodes at Berkeley in 1981
Born	July 16, 1937 Columbus, OH, U.S.
Nationality	American
Alma mater	Massachusetts Institute of Technology)
Known for	Krohn–Rhodes theorem
Awards	National Science Foundation Post-Doc Fellow (1962)
Scientific career
Fields	Mathematics
Institutions	University of California, Berkeley
Doctoral advisor	Warren Ambrose

John Lewis Rhodes is a mathematician known for work in the theory of semigroups, finite state automata, and algebraic approaches to differential equations.^[1][2]

Education and career

Rhodes was born in Columbus, Ohio, on July 16, 1937, but grew up in Wooster, Ohio, where he founded the Wooster Rocket Society as a teenager. In the fall of 1955, Rhodes entered the Massachusetts Institute of Technology intending to major in physics, but he soon switched to mathematics, earning his B.S. in 1960 and his Ph.D. in 1962. His Ph.D. thesis, co-written with a graduate student from Harvard, Kenneth Krohn, became known as the Prime Decomposition Theorem, or more simply the Krohn–Rhodes Theorem.^[3] After a year on an NSF fellowship in Paris, France, he became a member of the Faculty of Mathematics at the University of California, Berkeley, where he spent his entire teaching career.

In the late 1960s Rhodes wrote Applications of Automata Theory and Algebra: Via the Mathematical Theory of Complexity to Biology, Physics, Psychology, Philosophy, and Games, informally known as The Wild Book,^[4] which quickly became an underground classic, but remained in typescript until its revision and editing by Chrystopher L. Nehaniv in 2009.^[5] The following year Springer published his and Benjamin Steinberg's magnum opus, The q-Theory of Finite Semigroups, both a history of the field and the fruit of eight years' development of finite semigroup theory.^[6]

In recent years Rhodes brought semigroups into matroid theory. In 2015 he published, with Pedro V. Silva, the results of his current work in another monograph with Springer, Boolean Representations of Simplicial Complexes and Matroids.^[7]

Books and Monographs

• John Rhodes and Benjamin Steinberg (2008), The q-theory of finite semigroups. Springer Verlag. ISBN 978-0-387-09780-0.
• "The Wild Book", published as Applications of Automata Theory and Algebra via the Mathematical Theory of Complexity to Biology, Physics, Psychology, Philosophy, and Games. John Rhodes; Chrystopher L. Nehaniv (Ed.) (2009), World Scientific. ISBN 978-981-283-696-0
• John Rhodes and Pedro V. Silva (2015), Boolean Representations of Simplicial Complexes and Matroids. Springer Verlag. ISBN 978-3-319-15114-4

See also

• Krohn–Rhodes theory

References

1. [1] University of California, Berkeley 2011. Retrieved 14 September 2011.
2. John Rhodes at the Mathematics Genealogy Project
3. Kenneth Krohn and John Rhodes, Algebraic theory of machines. I: Prime decomposition theorem for finite semigroups and machines, Trans. Amer. Math. Soc. 116 (1965), 450-464.
4. "SS > book reviews > John L. Rhodes".
5. Applications of Automata Theory and Algebra via the Mathematical Theory of Complexity to Biology, Physics, Psychology, Philosophy, and Games. John Rhodes. Chrystopher L. Nehaniv (Ed.). Foreword by Morris W. Hirsch. (2009, World Scientific Books.) ISBN 978-981-283-696-0 (Print) ISBN 978-981-283-697-7 (Online)
6. John Rhodes and Benjamin Steinberg (2008-12-17). The q-theory of finite semigroups. Springer Monographs in Mathematics, Springer Verlag. ISBN 978-0-387-09780-0 (Print) ISBN 978-0-387-09781-7 (Online)
7. John Rhodes and Pedro V. Silva (2015-04). Boolean Representations of Simplicial Complexes and Matroids. Springer Verlag. ISBN 978-3-319-15114-4

External links

• Academic homepage
• Personal homepage
• Springer Monographs download page: q-Theory of Finite Semigroups
• Review of Applications of Automata Theory by Attila Egri-Nagy
• Springer Monographs download page: Boolean Representations of Simplicial Complexes