On the size of induced acyclic subgraphs in random digraphs
Let D ∈ D(n,p) denote a simple random digraph obtained by choosing each of the (n choose 2) undirected edges independently with probability 2p and then orienting each chosen edge independently in one of the two directions with equal probability 1/2. Let mas(D) denote the maximum size of an...
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Discrete Mathematics & Theoretical Computer Science
2008-04-01
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| Series: | Discrete Mathematics & Theoretical Computer Science |
| Online Access: | http://www.dmtcs.org/dmtcs-ojs/index.php/dmtcs/article/view/453 |
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doaj-c0d7c1efe45649c68a346d881d5456fd2020-11-24T20:47:06ZengDiscrete Mathematics & Theoretical Computer ScienceDiscrete Mathematics & Theoretical Computer Science1462-72641365-80502008-04-01102On the size of induced acyclic subgraphs in random digraphsJoel SpencerC. R. SubramanianLet D ∈ D(n,p) denote a simple random digraph obtained by choosing each of the (n choose 2) undirected edges independently with probability 2p and then orienting each chosen edge independently in one of the two directions with equal probability 1/2. Let mas(D) denote the maximum size of an induced acyclic subgraph in D. We obtain tight concentration results on the size of mas(D). Precisely, we show that mas(D) ≤ 2 (ln np + 3e)/ (ln (1-p) -1)almost surely, provided p ≥ W/n for some fixed constant W. This combined with known and new lower bounds shows that (for p satisfying p=ω(1/n) and p ≤0.5) mas(D) = (2 ln np)/ ln (1-p) -1)(1 ±o(1)). This proves a conjecture stated by Subramanian in 2003 for those p such that p = ω(1/n). Our results are also valid for the random digraph obtained by choosing each of the n(n-1) directed edges independently with probability p. http://www.dmtcs.org/dmtcs-ojs/index.php/dmtcs/article/view/453 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Joel Spencer C. R. Subramanian |
| spellingShingle |
Joel Spencer C. R. Subramanian On the size of induced acyclic subgraphs in random digraphs Discrete Mathematics & Theoretical Computer Science |
| author_facet |
Joel Spencer C. R. Subramanian |
| author_sort |
Joel Spencer |
| title |
On the size of induced acyclic subgraphs in random digraphs |
| title_short |
On the size of induced acyclic subgraphs in random digraphs |
| title_full |
On the size of induced acyclic subgraphs in random digraphs |
| title_fullStr |
On the size of induced acyclic subgraphs in random digraphs |
| title_full_unstemmed |
On the size of induced acyclic subgraphs in random digraphs |
| title_sort |
on the size of induced acyclic subgraphs in random digraphs |
| publisher |
Discrete Mathematics & Theoretical Computer Science |
| series |
Discrete Mathematics & Theoretical Computer Science |
| issn |
1462-7264 1365-8050 |
| publishDate |
2008-04-01 |
| description |
Let D ∈ D(n,p) denote a simple random digraph obtained by choosing each of the (n choose 2) undirected edges independently with probability 2p and then orienting each chosen edge independently in one of the two directions with equal probability 1/2. Let mas(D) denote the maximum size of an induced acyclic subgraph in D. We obtain tight concentration results on the size of mas(D). Precisely, we show that mas(D) ≤ 2 (ln np + 3e)/ (ln (1-p) -1)almost surely, provided p ≥ W/n for some fixed constant W. This combined with known and new lower bounds shows that (for p satisfying p=ω(1/n) and p ≤0.5) mas(D) = (2 ln np)/ ln (1-p) -1)(1 ±o(1)). This proves a conjecture stated by Subramanian in 2003 for those p such that p = ω(1/n). Our results are also valid for the random digraph obtained by choosing each of the n(n-1) directed edges independently with probability p. |
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http://www.dmtcs.org/dmtcs-ojs/index.php/dmtcs/article/view/453 |
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