Generalized Path Pairs and Fuss-Catalan Triangles
Abstract
Path pairs are a modification of parallelogram polyominoes that provide yet another combinatorial interpretation of the Catalan numbers. More generally, the number of path pairs of length and distance corresponds to the entry of Shapiro's so-called Catalan triangle. In this paper, we widen the notion of path pairs to the situation where and may have different lengths, and then enforce divisibility conditions on runs of vertical steps in . This creates a two-parameter family of integer triangles that generalize the Catalan triangle and qualify as proper Riordan arrays for many choices of parameters. In particular, we use generalized path pairs to provide a new combinatorial interpretation for all entries in every proper Riordan array of the form , , where and is the generating function for some sequence of Fuss-Catalan numbers (some ). Closed formulas are then provided for the number of generalized path pairs across an even broader range of parameters, as well as for the number of weak path pairs with a fixed number of non-initial intersections.
Keywords
Cite
@article{arxiv.2007.01892,
title = {Generalized Path Pairs and Fuss-Catalan Triangles},
author = {Paul Drube},
journal= {arXiv preprint arXiv:2007.01892},
year = {2020}
}