{"docId":5796,"paperId":5438,"url":"https:\/\/dmtcs.episciences.org\/5438","doi":"10.23638\/DMTCS-21-4-16","journalName":"Discrete Mathematics & Theoretical Computer Science","issn":"","eissn":"1365-8050","volume":[{"vid":373,"name":"vol. 21 no. 4"}],"section":[{"sid":6,"title":"Combinatorics","description":[]}],"repositoryName":"arXiv","repositoryIdentifier":"1905.02309","repositoryVersion":3,"repositoryLink":"https:\/\/arxiv.org\/abs\/1905.02309v3","dateSubmitted":"2019-05-08 03:09:29","dateAccepted":"2019-10-02 09:52:08","datePublished":"2019-10-02 09:52:20","titles":["Proofs of Conjectures about Pattern-Avoiding Linear Extensions"],"authors":["Defant, Colin"],"abstracts":["After fixing a canonical ordering (or labeling) of the elements of a finite poset, one can associate each linear extension of the poset with a permutation. Some recent papers consider specific families of posets and ask how many linear extensions give rise to permutations that avoid certain patterns. We build off of two of these papers. We first consider pattern avoidance in $k$-ary heaps, where we obtain a general result that proves a conjecture of Levin, Pudwell, Riehl, and Sandberg in a special case. We then prove some conjectures that Anderson, Egge, Riehl, Ryan, Steinke, and Vaughan made about pattern-avoiding linear extensions of rectangular posets.","Comment: 9 pages, 2 figures"],"keywords":["Mathematics - Combinatorics","05A05, 05A15, 05A16"]}