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Inferring a tree from walks

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Abstract

A walk on an undirected edge-colored graph G is a path containing all edges of G. The tree inference from a walk is, given a string x of colors, finding the smallest tree that realizes a walk whose sequence of edge-colors coincides with x. We prove that the problem is solvable in O(n) time, where n is the length of a given string. We furthermore consider the problem of inferring a tree from a finite number of partial walks, where a partial walk on G is a path in G. We show that the problem turns to be NP-complete even if the number of colors is restricted to 3. It is also shown that the problem of inferring a linear chain from partial walks is NP-complete, while the linear chain inference from a single walk is known to be solvable in polynomial time.

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A preliminary version of this work was presented at the 17th Symp. on Mathematical Foundations of Computer Science (MFCS '92), Prague, Czechoslovakia, 1992.