Theory of dimension for large discrete sets and applications

David Damanik; Michael Ruzhansky; Vitali Vougalter; M. W. Wong; A. Iosevich; M. Rudnev; I. Uriarte-Tuero

Journal ArticleOPEN ACCESS

Theory of dimension for large discrete sets and applications

Mathematical Modelling of Natural Phenomena (2014) 9(5) 148-169

DOI: 10.1051/mmnp/20149510

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Abstract

We define two notions of discrete dimension based on the Minkowski and Hausdorff dimensions in the continuous setting. After proving some basic results illustrating these definitions, we apply this machinery to the study of connections between the Erdos and Falconer distance problems in geometric combinatorics and geometric measure theory, respectively. © 2014 EDP Sciences.

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Damanik, D., Ruzhansky, M., Vougalter, V., Wong, M. W., Iosevich, A., Rudnev, M., & Uriarte-Tuero, I. (2014). Theory of dimension for large discrete sets and applications. Mathematical Modelling of Natural Phenomena, 9(5), 148–169. https://doi.org/10.1051/mmnp/20149510

Theory of dimension for large discrete sets and applications

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