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| Natura: | Preprint |
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2025
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| Accesso online: | https://arxiv.org/abs/2508.14334 |
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| _version_ | 1866911111579697152 |
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| author | Yang, Tianchi Yu, Xingxing |
| author_facet | Yang, Tianchi Yu, Xingxing |
| contents | In 1984, Frankl and Pach proved that, for positive integers $n$ and $d$, the maximum size of a $(d+1)$-uniform set family $\mathcal{F}$ on an $n$-element set with VC-dimension at most $d$ is at most ${n\choose d}$; and they suspected that ${n\choose d}$ could be replaced by ${n-1\choose d}$, which would generalize the famous Erdős-Ko-Rado theorem and was mentioned by Erdős as Frankl--Pach conjecture. However, Ahlswede and Khachatrian in 1997 constructed $(d+1)$-uniform families on an $n$-element set with VC-dimension at most $d$ and size exactly $\binom{n-1}{d}+\binom{n-4}{d-2}$, and Mubayi and Zhao in 2007 constructed more such families. It has since been an open question to narrow the gap between the lower bound $\binom{n-1}{d}+\binom{n-4}{d-2}$ and the upper bound ${n\choose d}$. In a recent breakthrough, Chao, Xu, Yip, and Zhang reduced the upper bound $\binom{n }{d}$ to $ \binom{n-1}{d}+O( n^{d-1-\frac{1}{4d-2}})$. In this paper, we further reduce the upper bound to $\binom{n-1}{d} + O(n^{d-2})$, asymptotically matching the lower bound $\binom{n-1}{d}+\binom{n-4}{d-2}$. |
| format | Preprint |
| id |
arxiv_https___arxiv_org_abs_2508_14334 |
| institution | arXiv |
| publishDate | 2025 |
| record_format | arxiv |
| spellingShingle | Maxmum Size of a Uniform Family with Bounded VC-dimension Yang, Tianchi Yu, Xingxing Combinatorics In 1984, Frankl and Pach proved that, for positive integers $n$ and $d$, the maximum size of a $(d+1)$-uniform set family $\mathcal{F}$ on an $n$-element set with VC-dimension at most $d$ is at most ${n\choose d}$; and they suspected that ${n\choose d}$ could be replaced by ${n-1\choose d}$, which would generalize the famous Erdős-Ko-Rado theorem and was mentioned by Erdős as Frankl--Pach conjecture. However, Ahlswede and Khachatrian in 1997 constructed $(d+1)$-uniform families on an $n$-element set with VC-dimension at most $d$ and size exactly $\binom{n-1}{d}+\binom{n-4}{d-2}$, and Mubayi and Zhao in 2007 constructed more such families. It has since been an open question to narrow the gap between the lower bound $\binom{n-1}{d}+\binom{n-4}{d-2}$ and the upper bound ${n\choose d}$. In a recent breakthrough, Chao, Xu, Yip, and Zhang reduced the upper bound $\binom{n }{d}$ to $ \binom{n-1}{d}+O( n^{d-1-\frac{1}{4d-2}})$. In this paper, we further reduce the upper bound to $\binom{n-1}{d} + O(n^{d-2})$, asymptotically matching the lower bound $\binom{n-1}{d}+\binom{n-4}{d-2}$. |
| title | Maxmum Size of a Uniform Family with Bounded VC-dimension |
| topic | Combinatorics |
| url | https://arxiv.org/abs/2508.14334 |