Characterizing optimal point sets determining one distinct triangle

Hazel N. Brenner; James S. Depret-Guillaume; Eyvindur A. Palsson; Robert Stuckey

doi:10.2140/involve.2020.13.91

Abstract

We determine the maximum number of points in $ℝ^{d}$ which form exactly $t$ distinct triangles, where we restrict ourselves to the case of $t = 1$ . We denote this quantity by $F_{d} (t)$ . It is known from the work of Epstein et al. (Integers 18 (2018), art. id. A16) that $F_{2} (1) = 4$ . Here we show somewhat surprisingly that $F_{3} (1) = 4$ and $F_{d} (1) = d + 1$ , whenever $d \geq 3$ , and characterize the optimal point configurations. This is an extension of a variant of the distinct distance problem put forward by Erdős and Fishburn (Discrete Math. 160:1-3 (1996), 115–125).

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Hazel N. Brenner. James S. Depret-Guillaume. Eyvindur A. Palsson. Robert Stuckey. "Characterizing optimal point sets determining one distinct triangle." Involve 13 (1) 91 - 98, 2020. https://doi.org/10.2140/involve.2020.13.91

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Received: 12 February 2019; Revised: 29 September 2019; Accepted: 11 November 2019; Published: 2020

First available in Project Euclid: 20 March 2020

zbMATH: 07172113

MathSciNet: MR4059943

Digital Object Identifier: 10.2140/involve.2020.13.91

Subjects:

Primary: 52C10

Secondary: 52C35

Keywords: Erdős problem , finite point configurations , one-triangle problem , optimal configurations

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