[seqfan] Re: Antichains and RAM
Brendan McKay
Brendan.McKay at anu.edu.au
Mon May 11 12:23:44 CEST 2020
Hmmmm, fix an element u of U. Take all the subsets of size n/2 that
include u,
and all the subsets of size n/2+1 that don't include u. It comes to
(n/(n+2)) binomial(n,n/2) subsets altogether. I don't know if this is
best possible,
but I know it isn't possible to reach binomial(n,n/2).
Brendan.
On 11/5/20 7:00 pm, Brendan McKay wrote:
> I will add a(7) for A305857 and A305855 shortly.
>
> The case of a(8) will be substantially more difficult. A relevant
> question is the following:
>
> Given a universal set U of size n, what is the maximum number of
> non-empty subsets
> of U such that none of the subsets is contained in another and each
> pair of the subsets
> has non-empty intersection?
>
> In the case that n is odd, the answer is binomial(n,(n+1)/2) with the
> unique solution
> being all the subsets of size (n+1)/2.
>
> I don't know the answer for n even. A lower bound is
> binomial(n,n/2)/2 since one
> can take all the subsets of size n/2 that contain a fixed element of
> U. Is it possible
> to do better? This is surely known.
>
> Brendan.
>
> On 11/5/20 5:34 pm, Elijah Beregovsky wrote:
>> Tim, thank you for the time spent!
>>
>> I’d thought about the isomorphism you propose, but I couldn’t come up
>> with any way to use it to speed up computations. There are loads of
>> sequences on the OEIS, though, that count the equivalence classes.
>> https://oeis.org/A305857, or https://oeis.org/A305855, for example.
>> You could maybe extend some of them with your program.
>> Best,
>> Elijah
>>
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>> Seqfan Mailing list - http://list.seqfan.eu/
>
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