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In this paper, we study undirected multiple graphs of any natural multiplicity k>1. There are edges of three types: ordinary edges, multiple edges and multi-edges. Each edge of the last two types is a union of k linked edges, which connect 2 or (k+1) vertices, correspondingly. The linked edges should be used simultaneously. If a vertex is incident to a multiple edge, it can be also incident to other multiple edges and it can be the common end of k linked edges of some multi-edge. If a vertex is the common end of some multi-edge, it cannot be the common end of another multi-edge. We study the problem of finding the Eulerian walk (the cycle or the trail) in a multiple graph, which generalizes the classical problem for an ordinary graph. The multiple Eulerian walk problem is NP-hard. We prove the polynomiality of two subclasses of the multiple Eulerian walk problem and elaborate the polynomial algorithms. In the first subclass, we set a constraint on the ordinary edges reachability sets, which are the subsets of vertices joined by ordinary edges only. In the second subclass, we set a constraint on the quasi-vertices degrees in the graph with quasi-vertices. The structure of this ordinary graph reflects the structure of the multiple graph, and each quasi-vertex is determined by k indices of the ordinary edges reachability sets, which are incident to some multi-edge.
А. В. Смирнов (Fri,) studied this question.
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