Welcome to roadinet.com on July 11 2009.
This is an internet experiment running to monitor browsing habbits of individuals through wikipedia contents.

Semi-Thue system

From Wikipedia, the free encyclopedia

  (Redirected from String rewriting)
Jump to: navigation, search
 This article's citation style may be unclear. The references used may be made clearer with a different or consistent style of citation, footnoting, or external linking.
This article contains too much jargon and may need simplification or further explanation. Please discuss this issue on the talk page, and/or remove or explain jargon terms used in the article. Editing help is available. (October 2007)

In computer science and mathematics a Semi-Thue system (also called a string rewriting system[1]) is a type of term rewriting system. It is named after the Norwegian mathematician Axel Thue, who introduced systematic treatment of string rewriting systems in the early 20th century.

Contents

[edit] Definition

A Semi-Thue system is a tuple (Σ,R) where

  • Σ is a finite alphabet. Elements of the set Σ * of finite (possibly empty) strings on Σ are called words.
  • R is a binary relation on Σ * , i.e., R \subseteq \Sigma^* \times \Sigma^*. Each element (u,v) \in R is called a rule and is usually written u \rightarrow v.

A Semi-Thue system (Σ,R) induces a one-step rewrite relation \Rightarrow_R on Σ * , which formalises the notion of rewriting a string s by replacing a substring u within it:

\forall s,t \in \Sigma^*, \ (s \Rightarrow_R t \iff \exist x,y,u,v \in \Sigma^*, \ s \equiv xuy, \ t \equiv xvy, \ u \rightarrow v).

A derivation in the Semi-Thue system is then a (finite or infinite) sequence of words produced by starting with an initial word s_0 \in \Sigma^* and repeatedly rewriting it by making one substring-replacement at a time:

s_0 \ \Rightarrow_R \ s_1 \ \Rightarrow_R \ s_2 \ \Rightarrow_R \ \ldots

If the relation R is symmetric, i.e., \forall u, v \in \Sigma^*,\ (u \rightarrow v) \Rightarrow (v \rightarrow u) \;, then the system is called a Thue system.

A Semi-Thue system is a special type of Post canonical system. A semi-Thue system is also a term-rewriting system — one that has monadic words ending in the same variable as left- and right-hand side terms[2], e.g. a term rule f_2(f_1(x)) \rightarrow g(x) is equivalent with the string rule f_1f_2 \rightarrow g.

[edit] History and importance

Semi-Thue systems were developed as part of a program to add additional constructs to logic, so as to create systems such as propositional logic, that would allow general mathematical theorems to be expressed in a formal language, and then proven and verified in an automatic, mechanical fashion. The hope was that the act of theorem proving could then be reduced to a set of defined manipulations on a set of strings. It was subsequently realized that semi-Thue systems are isomorphic to unrestricted grammars, which in turn are known to be isomorphic to Turing machines. And although this program of research succeeded in that computers can now be used to verify the proofs of theorems, it also failed in a spectacular way: a computer cannot distinguish between an interesting theorem, and a boring one.

At the suggestion of Alonzo Church, Emil Post in a paper published in 1947, first proved "a certain Problem of Thue" to be unsolvable, what Martin Davis states as "...the first unsolvability proof for a problem from classical mathematics -- in this case the word problem for semigroups." (Undecidable p. 292)

Davis [ibid] asserts that the proof was offered independently by A. A. Markov (C. R. (Doklady) Acad. Sci. U.S.S.R. (n.s.) 55(1947), pp. 583-586.

[edit] The Word problem for Semi-Thue systems

The word problem for Semi-Thue systems can be stated as follows: Given a Semi-Thue system T: = (Σ,R) and two words u, v \in \Sigma^*, can u be transformed into v by applying rules from R? This problem is undecidable, i.e. there is no general algorithm for solving this problem. This even holds if we limit the input to finite systems.

Martin Davis offers the lay reader a two-page proof in his article "What is a Computation?" pp. 258-259 with commentary p. 257. Davis casts the proof in this manner: "invent [a word problem] whose solution would lead to a solution to the halting problem."

[edit] See also

[edit] Notes

  1. ^ Book and Otto, p. 36
  2. ^ Nachum Dershowitz and Jean-Pierre Jouannaud. Rewrite Systems (1990) p. 6

[edit] References

  • Martin Davis ed. (1965), The Undecidable: Basic Papers on Undecidable Propositions, Unsolvable Problems and Computable Functions, Raven Press, New York.
  • Emil Post (1947), Recursive Unsolvability of a Problem of Thue, reprinted in The Undecidable pp. 293ff from The Journal of Symbolic Logic, vol. 12 (1947) pp. 1-11.
  • Ronald V. Book and Friedrich Otto, String-rewriting Systems, Springer (1993).
Retrieved from "http://en.wikipedia.org/wiki/Semi-Thue_system"
Personal tools
Visit joltnews for the latest headlines
Visit bloit.com for company information
Geed Media does computer consulting on long island.
This page viewed times. See Logs