John Myhill


John R. Myhill Sr. was a British mathematician.

Education

Myhill received his Ph.D. from Harvard University under Willard Van Orman Quine in 1949. He was professor at SUNY Buffalo from 1966 until his death in 1987. He also taught at several other universities.
His son, also called John Myhill, is a professor of linguistics in the English department of the University of Haifa in Israel.

Contributions

In the theory of formal languages, the Myhill–Nerode theorem, proven by Myhill with Anil Nerode, characterizes the regular languages as the languages that have only finitely many inequivalent prefixes.
In computability theory, the Rice–Myhill–Shapiro theorem, more commonly known as Rice's theorem, states that, for any nontrivial property P of partial functions, it is undecidable to determine whether a given Turing machine computes a function with property P. The Myhill isomorphism theorem is a computability-theoretic analogue of the Cantor–Bernstein–Schroeder theorem that characterizes the recursive isomorphisms of pairs of sets.
In the theory of cellular automata, Myhill is known for proving the Garden of Eden theorem, stating that a cellular automaton has a configuration with no predecessor if and only if it has two different asymptotic configurations which evolve to the same configuration. He is also known for posing the firing squad synchronization problem of designing an automaton that, starting from a single non-quiescent cell, evolves to a configuration in which all cells reach the same non-quiescent state at the same time; this problem was again solved by Moore.
In constructive set theory, Myhill is known for proposing an axiom system that avoids the axiom of choice and the law of the excluded middle, known as intuitionistic Zermelo–Fraenkel. He also developed a constructive set theory based on natural numbers, functions, and sets, rather than basing it purely on sets.
The Russell–Myhill paradox or Russell–Myhill antinomy, discovered by Bertrand Russell in 1902 and rediscovered by Myhill in 1958, concerns systems of logic in which logical propositions can be members of classes, and can also be about classes; for instance, a proposition P can "state the product" of a class C, meaning that proposition P asserts that all propositions contained in class C are true. In such a system, the class of propositions that state the product of classes that do not include them is paradoxical. For, if proposition P states the product of this class, an inconsistency arises regardless of whether P does or does not belong to the class it describes.
In music theory, Myhill's property is a mathematical property of musical scales described by John Clough and Gerald Myerson and named by them after Myhill.