English

Explicit Formulas and Unimodality Phenomena for General Position Polynomials

Combinatorics 2026-03-26 v2 Discrete Mathematics

Abstract

The general position problem in graphs seeks the largest set of vertices such that no three vertices lie on a common geodesic. Its counting refinement, the general position polynomial ψ(G)\psi(G), asks for all such possible sets. In this paper, We describe general position sets for several classes of graphs and provide explicit formulas for the general position polynomials of complete multipartite graphs. We specialize to balanced complete multipartite graphs and show that for part size r4r\le 4, the polynomial ψ(Kr,,r)\psi(K_{r,\dots,r}) is log-concave and unimodal for all numbers of parts, while for larger rr, counterexamples show that these properties fail. Finally, we analyze the corona GK1G\circ K_1 and prove that unimodality of ψ(G)\psi(G) is retained for numerous natural classes (paths, edgeless graphs, combs). This contributes to an open problem, but the general case remains unknown. Our findings support the parallel between general position polynomials and classical position-type parameters, and identify balanced multipartite graphs and coronas as promising testbeds for additional research.

Keywords

Cite

@article{arxiv.2603.06930,
  title  = {Explicit Formulas and Unimodality Phenomena for General Position Polynomials},
  author = {Bilal Ahmad Rather},
  journal= {arXiv preprint arXiv:2603.06930},
  year   = {2026}
}

Comments

32 pages; Updated with Theorem 5.3, Remark 5.4, Example 5.5, Theorem 5.6, Corollary 5.7, and Example 5.8

R2 v1 2026-07-01T11:08:04.966Z