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When dealing with directed graphs, a tree is a graph in which every node except one (the root) has a single incoming edge? Are there any examples of treelike structures in which every node has at most some constant number of incoming edges; say, at most two, or at most three? I haven't come across any graphs specifically described this way; is there a particular application in which they are used?

Thanks so much!

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The audience at cstheory.stackexchange.com might be more qualified to answer this question. –  Björn Pollex Aug 21 '11 at 10:36

3 Answers 3

In graph theory, a tree is a connected acyclic graph. There is no requirement that every node have one incoming edge. In computer science, we often deal with rooted trees that agree with your definition.

Here is one description of a tree where some of the nodes have a constant number of incoming edges: an assignment of projects to employees, where each employee can be assigned at most three projects.

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Correct me if I'm wrong, but I think that your definition of trees is in the case of undirected graphs. With a directed graph, it's possible to have an acyclic graph that is not a tree; for example, think of a direct diamond graph. –  templatetypedef Feb 28 '11 at 9:33
en.wikipedia.org/wiki/Tree_(graph_theory) requires only that the graph be acyclic and connected. –  Sasha Goldshtein Feb 28 '11 at 10:10
Your link mentions that this definition of tree only holds in an undirected graph and specifically special-cases trees in directed graphs. –  templatetypedef Mar 5 '11 at 10:11
Sasha's definition is good one, but choosing one node as a root, all edges can be directed in natural way (from tree definition that any two vertices are connected by exactly one simple path). –  Ante Aug 21 '11 at 10:12

The most common generalization of a tree is a "DAG" (Directed Acyclic Graph) which is tangentially related but does not set a maximum on the size of in-neighborhoods (arcs which lead into a vertex) and specification of a single source (vertices with empty in-neighborhood).

From what I know, there's no neat term for what you're looking for. You'll need to find a true mathematician with a deep interest in graph theory to know with any certainty!

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Lattices (partially ordered sets) have that property.

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