Abstract
Bidirected graphs generalize directed and undirected graphs in that edges are oriented locally at every node. The natural notion of the degree of a node that takes into account (local) orientations is that of net-degree. In this paper, we extend the following four topics from (un)directed graphs to bidirected graphs: –Erdős–Gallai-type results: characterization of net-degree sequences,–Havel–Hakimi-type results: complete sets of degree-preserving operations,–Extremal degree sequences: characterization of uniquely realizable sequences, and–Enumerative aspects: counting formulas for net-degree sequences.To underline the similarities and differences to their (un)directed counterparts, we briefly survey the undirected setting and we give a thorough account for digraphs with an emphasis on the discrete geometry of degree sequences. In particular, we determine the tight and uniquely realizable degree sequences for directed graphs.
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