Mathematics – Probability
Scientific paper
2012-02-23
Mathematics
Probability
arXiv admin note: text overlap with arXiv:1002.1943 by other authors
Scientific paper
Suppose that red and blue points occur in $\mathbb{R}^d$ according to two simple point process with finite intensities $\lambda_{\mathcal{R}}$ and $\lambda_{\mathcal{B}}$, respectively. Furthermore, let $\nu$ and $\mu$ be two probability distributions on the strictly positive integers. Assign independently a random number of stubs (half-edges) to each red and blue point with laws $\nu$ and $\mu$, respectively. We are interested in translation-invariant schemes to match stubs between points of different colors in order to obtain random bipartite graphs in which each point has a prescribed degree distribution with law $\nu$ or $\mu$ depending on its color. Let $X$ and $Y$ be random variables with law $\nu$ and $\mu$, respectively. For a large class of point processes we show that we can obtain such translation-invariant schemes matching a.s. all stubs if and only if \[ \lambda_{\mathcal{R}} \mathbb{E}(X)= \lambda_{\mathcal{B}} \mathbb{E}(Y), \] allowing $\infty$ in both sides, when both laws have infinite mean. Furthermore, we study a particular scheme based on the Gale-Shapley stable marriage. For this scheme we give sufficient conditions on $X$ and $Y$ for the presence and absence of infinite components. These results are two-color versions of those obtained by Deijfen, H\"aggstr\"om and Holroyd.
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