Graph Realizations: Maximum and Minimum Degree in Vertex Neighborhoods
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The classical problem of degree sequence realizability asks whether or not a given sequence of n positive integers is equal to the degree sequence of some n-vertex undirected simple graph. While the realizability problem of degree sequences has been well studied for different classes of graphs, there has been relatively little work concerning the realizability of other types of information profiles, such as the vertex neighborhood profiles. In this paper, we initiate the study of neighborhood degree profiles. We focus on the natural problem of realizing maximum and minimum neighborhood degrees. More specifically, we ask the following question: Given a sequence D of n non-negative integers 0≤ d_1≤...≤ d_n, does there exist a simple graph with vertices v_1,..., v_n such that for every 1< i < n, the maximum (resp. minimum) degree in the neighborhood of v_i is exactly d_i? We provide in this work various results for both maximum as well as minimum neighborhood degree for general n vertex graphs. Our results are first of its kind that studies extremal neighborhood degree profiles. For maximum neighborhood degree profiles, we provide a complete realizability criteria. In comparison, we observe that the minimum neighborhood profiles are not so well-behaved, for these our necessary and sufficient conditions for realizability differ by a factor of at most two.
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