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Let $\mathcal{P}(n)$ denote the power set of $[n]$, ordered by inclusion, and let $\mathcal{P}(n,p)$ be obtained from $\mathcal{P}(n)$ by selecting elements from $\mathcal{P}(n)$ independently at random with probability $p$. A classical…

Combinatorics · Mathematics 2014-10-06 József Balogh , Richard Mycroft , Andrew Treglown

How large an antichain can we find inside a given downset in the lattice of subsets of [n]? Sperner's theorem asserts that the largest antichain in the whole lattice has size the binomial coefficient C(n, n/2); what happens for general…

Combinatorics · Mathematics 2019-01-16 Dwight Duffus , David Howard , Imre Leader

One of the most classical results in extremal set theory is Sperner's theorem, which says that the largest antichain in the Boolean lattice $2^{[n]}$ has size $\Theta\big(\frac{2^n}{\sqrt{n}}\big)$. Motivated by an old problem of Erd\H{o}s…

Combinatorics · Mathematics 2020-08-14 Benny Sudakov , István Tomon , Adam Zsolt Wagner

An antichain $\mathcal{A}$ in a poset $\mathcal{P}$ is a subset of $\mathcal{P}$ in which no two elements are comparable. Sperner showed that the maximal antichain in the Boolean lattice, $\mathcal{B}_n = \left\{ 0 < 1 \right\}^n$, is the…

Combinatorics · Mathematics 2019-01-07 Larry H. Harper , Gene B. Kim

Dedekind's problem, dating back to 1897, asks for the total number $\psi(n)$ of antichains contained in the Boolean lattice $B_n$ on $n$ elements. We study Dedekind's problem using a recently developed method based on the cluster expansion…

Combinatorics · Mathematics 2024-11-25 Matthew Jenssen , Alexandru Malekshahian , Jinyoung Park

A family ${\mathcal A} \subset {\mathcal P} [n]$ is said to be an antichain if $A \not \subset B$ for all distinct $A,B \in {\mathcal A}$. A classic result of Sperner shows that such families satisfy $|{\mathcal A}| \leq \binom {n}{\lfloor…

Combinatorics · Mathematics 2015-03-23 Eoin Long

Let $P$ be a partially ordered set. We prove that if $n$ is sufficiently large, then there exists a packing $\mathcal{P}$ of copies of $P$ in the Boolean lattice $(2^{[n]},\subset)$ that covers almost every element of $2^{[n]}$:…

Combinatorics · Mathematics 2019-09-11 Istvan Tomon

We apply the graph container method to prove a number of counting results for the Boolean lattice $\mathcal P(n)$. In particular, we: (i) Give a partial answer to a question of Sapozhenko estimating the number of $t$ error correcting codes…

Combinatorics · Mathematics 2018-02-16 Jozsef Balogh , Andrew Treglown , Adam Zsolt Wagner

Extending a classical theorem of Sperner, we characterize the integers $m$ such that there exists a maximal antichain of size $m$ in the Boolean lattice $B_n$, that is, the power set of $[n]:=\{1,2,\dots,n\}$, ordered by inclusion. As an…

Combinatorics · Mathematics 2024-01-30 Jerrold R. Griggs , Thomas Kalinowski , Uwe Leck , Ian T. Roberts , Michael Schmitz

The Boolean lattice $2^{[n]}$ is the family of all subsets of $[n]=\{1,\dots,n\}$ ordered by inclusion, and a chain is a family of pairwise comparable elements of $2^{[n]}$. Let $s=2^{n}/\binom{n}{\lfloor n/2\rfloor}$, which is the average…

Combinatorics · Mathematics 2019-11-22 Benny Sudakov , Istvan Tomon , Adam Zsolt Wagner

This is the second in a sequence of three papers investigating the question for which positive integers $m$ there exists a maximal antichain of size $m$ in the Boolean lattice $B_n$ (the power set of $[n]:=\{1,2,\dots,n\}$, ordered by…

Combinatorics · Mathematics 2022-10-21 Jerrold R. Griggs , Thomas Kalinowski , Uwe Leck , Ian T. Roberts , Michael Schmitz

The Boolean lattice $2^{[n]}$ is the power set of $[n]$ ordered by inclusion. A chain $c_{0}\subset...\subset c_{k}$ in $2^{[n]}$ is rank-symmetric, if $|c_{i}|+|c_{k-i}|=n$ for $i=0,...,k$; and it is symmetric, if $|c_{i}|=(n-k)/2+i$. We…

Combinatorics · Mathematics 2015-09-25 Istvan Tomon

We give a short and self-contained argument that shows that, for any positive integers $t$ and $n$ with $t =O\Bigl(\frac{n}{\log n}\Bigr)$, the number $\alpha([t]^n)$ of antichains of the poset $[t]^n$ is at most…

Combinatorics · Mathematics 2023-05-29 Jinyoung Park , Michail Sarantis , Prasad Tetali

Let $P$ be a poset of size $2^k$ that has a greatest and a least element. We prove that, for sufficiently large $n$, the Boolean lattice $2^{[n]}$ can be partitioned into copies of $P$. This resolves a conjecture of Lonc.

Combinatorics · Mathematics 2016-09-09 Vytautas Gruslys , Imre Leader , István Tomon

This is the second of two papers investigating for which positive integers $m$ there exists a maximal antichain of size $m$ in the Boolean lattice $B_n$ (the power set of $[n]:=\{1,2,\dots,n\}$, ordered by inclusion). In the first part, the…

Combinatorics · Mathematics 2024-07-01 Jerrold R. Griggs , Thomas Kalinowski , Uwe Leck , Ian T. Roberts , Michael Schmitz

We find the (unique) largest subset of $\{0, 1, 2\}^n$ such that it contains no two elements, one of which is coordinatewise greater than the other, but strictly greater on at most $k$ coordinates. To do so, we decompose the cube into…

Combinatorics · Mathematics 2025-10-01 Yaël Dillies , Matthew Johnson , Aleksandra Kowalska

For a subfamily ${F}\subseteq 2^{[n]}$ of the Boolean lattice, consider the graph $G_{F}$ on ${F}$ based on the pairwise inclusion relations among its members. Given a positive integer $t$, how large can ${F}$ be before $G_{F}$ must contain…

Combinatorics · Mathematics 2025-03-18 Julian Galliano , Ross J. Kang

We are interested in maximizing the number of pairwise unrelated copies of a poset $P$ in the family of all subsets of $[n]$. We prove that for any $P$ the maximum number of unrelated copies of $P$ is asymptotic to a constant times the…

Combinatorics · Mathematics 2013-09-27 Andrew P. Dove , Jerrold R. Griggs

Consider $S$, a set of $n$ points chosen uniformly at random and independently from the unit hypercube of dimension $t>2$. Order $S$ by using the Cartesian product of the $t$ standard orders of $[0,1]$. We determine a constant $\bar x(t)<e$…

Combinatorics · Mathematics 2025-07-15 Boris Pittel

Given a graph G, let Q(G) denote the collection of all independent (edge-free) sets of vertices in G. We consider the problem of determining the size of a largest antichain in Q(G). When G is the edge-less graph, this problem is resolved by…

Combinatorics · Mathematics 2013-10-08 Victor Falgas-Ravry
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