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A decomposition theorem for balanced measures

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arxiv 2312.08649 v3 pith:HQ3GR3A3 submitted 2023-12-14 math.CO

A decomposition theorem for balanced measures

classification math.CO
keywords balancedmeasuresbasicdecompositiongraphattainsboundcall
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Let $G = (V,E)$ be a connected graph. A probability measure $\mu$ on $V$ is called "balanced" if it has the following property: if $T_\mu(v)$ denotes the "earth mover's" cost of transporting all the mass of $\mu$ from all over the graph to the vertex $v$, then $T_\mu$ attains its global maximum at each point in the support of $\mu$. We prove a decomposition result that characterizes balanced measures as convex combinations of suitable "extremal" balanced measures that we call "basic." An upper bound on the number of basic balanced measures on $G$ follows, and an example shows that this estimate is essentially sharp.

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