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Recursive coloration of countable graphs

Hans-Georg Carstens & Peter Päppinghaus

Annals of Pure and Applied Logic 25 (1):19-45 (1983)

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A-computable graphs.Matthew Jura, Oscar Levin & Tyler Markkanen - 2016 - Annals of Pure and Applied Logic 167 (3):235-246.details Download Export citation Bookmark
Reverse Mathematics and Recursive Graph Theory.William Gasarch & Jeffry L. Hirst - 1998 - Mathematical Logic Quarterly 44 (4):465-473.details We examine a number of results of infinite combinatorics using the techniques of reverse mathematics. Our results are inspired by similar results in recursive combinatorics. Theorems included concern colorings of graphs and bounded graphs, Euler paths, and Hamilton paths. Download Export citation Bookmark 4 citations
On the finiteness of the recursive chromatic number.William I. Gasarch & Andrew C. Y. Lee - 1998 - Annals of Pure and Applied Logic 93 (1-3):73-81.details A recursive graph is a graph whose vertex and edge sets are recursive. A highly recursive graph is a recursive graph that also has the following property: one can recursively determine the neighbors of a vertex. Both of these have been studied in the literature. We consider an intermediary notion: Let A be a set. An A-recursive graph is a recursive graph that also has the following property: one can recursively-in-A determine the neighbors of a vertex. We show that, if (...) Download Export citation Bookmark 1 citation
On the complexity of finding the chromatic number of a recursive graph I: the bounded case.Richard Beigel & William I. Gasarch - 1989 - Annals of Pure and Applied Logic 45 (1):1-38.details Download Export citation Bookmark 6 citations
On the complexity of finding the chromatic number of a recursive graph II: the unbounded case.Richard Beigel & William I. Gasarch - 1989 - Annals of Pure and Applied Logic 45 (3):227-246.details Download Export citation Bookmark 4 citations

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