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  1. When is arithmetic possible?Gregory L. McColm - 1990 - Annals of Pure and Applied Logic 50 (1):29-51.
    When a structure or class of structures admits an unbounded induction, we can do arithmetic on the stages of that induction: if only bounded inductions are admitted, then clearly each inductively definable relation can be defined using a finite explicit expression. Is the converse true? We examine evidence that the converse is true, in positive elementary induction . We present a stronger conjecture involving the language L consisting of all L∞ω formulas with a finite number of variables, and examine a (...)
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  • The dimension of the negation of transitive closure.Gregory L. McColm - 1995 - Journal of Symbolic Logic 60 (2):392-414.
    We prove that any positive elementary (least fixed point) induction expressing the negation of transitive closure on finite nondirected graphs requires at least two recursion variables.
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  • Hierarchies in transitive closure logic, stratified Datalog and infinitary logic.Erich Grädel & Gregory L. McColm - 1996 - Annals of Pure and Applied Logic 77 (2):169-199.
    We establish a general hierarchy theorem for quantifier classes in the infinitary logic L∞ωωon finite structures. In particular, it is shown that no infinitary formula with bounded number of universal quantifiers can express the negation of a transitive closure.This implies the solution of several open problems in finite model theory: On finite structures, positive transitive closure logic is not closed under negation. More generally the hierarchy defined by interleaving negation and transitive closure operators is strict. This proves a conjecture of (...)
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  • Guarded quantification in least fixed point logic.Gregory McColm - 2004 - Journal of Logic, Language and Information 13 (1):61-110.
    We develop a variant of Least Fixed Point logic based on First Orderlogic with a relaxed version of guarded quantification. We develop aGame Theoretic Semantics of this logic, and find that under reasonableconditions, guarding quantification does not reduce the expressibilityof Least Fixed Point logic. But we also find that the guarded version ofa least fixed point algorithm may have a greater time complexity thanthe unguarded version, by a linear factor.
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