{"docId":3201,"paperId":1349,"url":"https:\/\/dmtcs.episciences.org\/1349","doi":"10.23638\/DMTCS-19-1-7","journalName":"Discrete Mathematics & Theoretical Computer Science","issn":"","eissn":"1365-8050","volume":[{"vid":303,"name":"Vol. 19 no. 1"}],"section":[{"sid":6,"title":"Combinatorics","description":[]}],"repositoryName":"arXiv","repositoryIdentifier":"1512.06073","repositoryVersion":3,"repositoryLink":"https:\/\/arxiv.org\/abs\/1512.06073v3","dateSubmitted":"2017-03-17 09:15:51","dateAccepted":"2017-03-24 17:07:24","datePublished":"2017-03-24 17:07:54","titles":["On the shelling antimatroids of split graphs"],"authors":["Cardinal, Jean","Doignon, Jean-Paul","Merckx, Keno"],"abstracts":["Chordal graph shelling antimatroids have received little attention with regard to their combinatorial properties and related optimization problems, as compared to the case of poset shelling antimatroids. Here we consider a special case of these antimatroids, namely the split graph shelling antimatroids. We show that the feasible sets of such an antimatroid relate to some poset shelling antimatroids constructed from the graph. We discuss a few applications, obtaining in particular a simple polynomial-time algorithm to find a maximum weight feasible set. We also provide a simple description of the circuits and the free sets."],"keywords":["Computer Science - Discrete Mathematics","Computer Science - Data Structures and Algorithms","Mathematics - Combinatorics"]}