Your search keyword '"Bukh, Boris"' showing total 12 results

1. Periodic words, common subsequences and frogs

Author

Bukh, Boris and Cox, Christopher

Subjects

Statistics and Probability, Probability (math.PR), FOS: Mathematics, Mathematics - Combinatorics, 60J10, Combinatorics (math.CO), Statistics, Probability and Uncertainty, Mathematics - Probability

Abstract

Let $W^{(n)}$ be the $n$-letter word obtained by repeating a fixed word $W$, and let $R_n$ be a random $n$-letter word over the same alphabet. We show several results about the length of the longest common subsequence (LCS) between $W^{(n)}$ and $R_n$; in particular, we show that its expectation is $\gamma_W n-O(\sqrt{n})$ for an efficiently-computable constant $\gamma_W$. This is done by relating the problem to a new interacting particle system, which we dub "frog dynamics". In this system, the particles (`frogs') hop over one another in the order given by their labels. Stripped of the labeling, the frog dynamics reduces to a variant of the PushTASEP. In the special case when all symbols of $W$ are distinct, we obtain an explicit formula for the constant $\gamma_W$ and a closed-form expression for the stationary distribution of the associated frog dynamics. In addition, we propose new conjectures about the asymptotic of the LCS of a pair of random words. These conjectures are informed by computer experiments using a new heuristic algorithm to compute the LCS. Through our computations, we found periodic words that are more random-like than a random word, as measured by the LCS., Comment: 43 pages, 4 figures, 2 tables

Published

2022

2. Applications of Random Algebraic Constructions to Hardness of Approximation

Author

Bukh, Boris, S., Karthik C., and Narayanan, Bhargav

Subjects

FOS: Computer and information sciences, Computer Science - Computational Complexity, FOS: Mathematics, Mathematics - Combinatorics, Combinatorics (math.CO), Computational Complexity (cs.CC)

Abstract

In this paper, we show how one may (efficiently) construct two types of extremal combinatorial objects whose existence was previously conjectural. (*) Panchromatic Graphs: For fixed integer k, a k-panchromatic graph is, roughly speaking, a balanced bipartite graph with one partition class equipartitioned into k colour classes in which the common neighbourhoods of panchromatic k-sets of vertices are much larger than those of k-sets that repeat a colour. The question of their existence was raised by Karthik and Manurangsi [Combinatorica 2020]. (*) Threshold Graphs: For fixed integer k, a k-threshold graph is, roughly speaking, a balanced bipartite graph in which the common neighbourhoods of k-sets of vertices on one side are much larger than those of (k+1)-sets. The question of their existence was raised by Lin [JACM 2018]. As applications of our constructions, we show the following conditional time lower bounds on the parameterized set intersection problem where, given a collection of n sets over universe [n] and a parameter k, the goal is to find k sets with the largest intersection. (*) Assuming ETH, for any computable function F, no $n^{o(k)}$-time algorithm can approximate the parameterized set intersection problem up to factor F(k). This improves considerably on the previously best-known result under ETH due to Lin [JACM 2018], who ruled out any $n^{o(\sqrt{k})}$ time approximation algorithm for this problem. (*) Assuming SETH, for every $\varepsilon>0$ and any computable function F, no $n^{k-\varepsilon}$-time algorithm can approximate the parameterized set intersection problem up to factor F(k). No result of comparable strength was previously known under SETH, even for solving this problem exactly., in metadata shortened to meet arxiv requirements

Published

2022

3. Tur��n numbers of theta graphs

Author

Bukh, Boris and Tait, Michael

Subjects

FOS: Mathematics, Combinatorics (math.CO)

Abstract

The theta graph $��_{\ell,t}$ consists of two vertices joined by $t$ vertex-disjoint paths of length $\ell$ each. For fixed odd $\ell$ and large $t$, we show that the largest graph not containing $��_{\ell,t}$ has at most $c_{\ell} t^{1-1/\ell}n^{1+1/\ell}$ edges and that this is tight apart from the value of $c_{\ell}$., Revised to reflect referee comments. To appear in Combinatorics, Probability and Computing

Published

2018

4. Classifying unavoidable Tverberg partitions

Author

Bukh, Boris, Loh, Po-Shen, and Nivasch, Gabriel

Subjects

Computational Geometry (cs.CG), FOS: Computer and information sciences, Mathematics::Combinatorics, FOS: Mathematics, Computer Science - Computational Geometry, Mathematics - Combinatorics, Mathematics::Metric Geometry, G.2.1, Combinatorics (math.CO), 52C99, 68U05, Computer Science::Computational Geometry, Mathematics::Algebraic Topology

Abstract

Let $T(d,r) = (r-1)(d+1)+1$ be the parameter in Tverberg's theorem, and call a partition $\mathcal I$ of $\{1,2,\ldots,T(d,r)\}$ into $r$ parts a "Tverberg type". We say that $\mathcal I$ "occurs" in an ordered point sequence $P$ if $P$ contains a subsequence $P'$ of $T(d,r)$ points such that the partition of $P'$ that is order-isomorphic to $\mathcal I$ is a Tverberg partition. We say that $\mathcal I$ is "unavoidable" if it occurs in every sufficiently long point sequence. In this paper we study the problem of determining which Tverberg types are unavoidable. We conjecture a complete characterization of the unavoidable Tverberg types, and we prove some cases of our conjecture for $d\le 4$. Along the way, we study the avoidability of many other geometric predicates. Our techniques also yield a large family of $T(d,r)$-point sets for which the number of Tverberg partitions is exactly $(r-1)!^d$. This lends further support for Sierksma's conjecture on the number of Tverberg partitions., Comment: Revision following referee comments. 32 pages, 8 figures

Published

2016

5. Suborbits in Knaster's problem

Author

Bukh, Boris and Karasev, Roman N.

Subjects

Mathematics::Logic, Mathematics::Combinatorics, FOS: Mathematics, Mathematics::Metric Geometry, Mathematics::General Topology, 19999 Mathematical Sciences not elsewhere classified

Abstract

In this paper, we exhibit a similarity between Euclidean Ramsey problems and Knaster-type problems. By borrowing ideas from Ramsey theory, we prove weak Knaster properties of non-equatorial triangles in spheres, and of simplices in Euclidean spaces.

Published

2013

6. An improvement of the Beck-Fiala theorem

Author

Bukh, Boris

Subjects

FOS: Mathematics, Mathematics - Combinatorics, 19999 Mathematical Sciences not elsewhere classified, 05D05, 11K38, 05C15, Combinatorics (math.CO), G.2.2

Abstract

In 1981 Beck and Fiala proved an upper bound for the discrepancy of a set system of degree d that is independent of the size of the ground set. In the intervening years the bound has been decreased from 2d-2 to 2d-4. We improve the bound to 2d-log* d., Comment: 18 pages

Published

2013

7. Tur��n numbers for $K_{s,t}$-free graphs: topological obstructions and algebraic constructions

Author

Blagojevi��, Pavle, Bukh, Boris, and Karasev, Roman

Subjects

FOS: Mathematics, Algebraic Topology (math.AT), Combinatorics (math.CO), Algebraic Geometry (math.AG)

Abstract

We show that every hypersurface in $\R^s\times \R^s$ contains a large grid, i.e., the set of the form $S\times T$, with $S,T\subset \R^s$. We use this to deduce that the known constructions of extremal $K_{2,2}$-free and $K_{3,3}$-free graphs cannot be generalized to a similar construction of $K_{s,s}$-free graphs for any $s\geq 4$. We also give new constructions of extremal $K_{s,t}$-free graphs for large $t$., Fixed a small mistake in the application of Proposition 1

Published

2011

8. Multidimensional Kruskal-Katona theorem

Author

Bukh, Boris

Subjects

05D05, FOS: Mathematics, Mathematics - Combinatorics, Combinatorics (math.CO)

Abstract

We present a generalization of a version of the Kruskal-Katona theorem due to Lovasz. A shadow of a d-tuple (S_1,...,S_d) in binom{X}{r}^d consists of d-tuples (S_1',...,S_d') in binom{X}{r-1}^d obtained by removing one element from each of S_i. We show that if a family F in binom{X}{r}^d has size |F|=binom{x}{r}^d for a real number x>=r, then the shadow of F has size at least binom{x}{r-1}^d., 8 pages, 1 figure, typos fixed

Published

2010

9. Radon partitions in convexity spaces

Author

Bukh, Boris

Subjects

Computational Geometry (cs.CG), FOS: Computer and information sciences, Mathematics - Metric Geometry, FOS: Mathematics, Mathematics - Combinatorics, Computer Science - Computational Geometry, Metric Geometry (math.MG), Combinatorics (math.CO), 52A01 (Primary), 05D05, 06A15, 52A37 (Secondary)

Abstract

Tverberg's theorem asserts that every (k-1)(d+1)+1 points in R^d can be partitioned into k parts, so that the convex hulls of the parts have a common intersection. Calder and Eckhoff asked whether there is a purely combinatorial deduction of Tverberg's theorem from the special case k=2. We dash the hopes of a purely combinatorial deduction, but show that the case k=2 does imply that every set of O(k^2 log^2 k) points admits a Tverberg partition into k parts., Comment: 11 pages

Published

2010

10. Discrete Kakeya-type problems and small bases

Author

Alon, Noga, Bukh, Boris, and Sudakov, Benny

Subjects

Mathematics - Number Theory, FOS: Mathematics, Mathematics - Combinatorics, Combinatorics (math.CO), Group Theory (math.GR), Number Theory (math.NT), Mathematics - Group Theory, 05B10, 11B13, 20D60

Abstract

A subset U of a group G is called k-universal if U contains a translate of every k-element subset of G. We give several nearly optimal constructions of small k-universal sets, and use them to resolve an old question of Erdos and Newman on bases for sets of integers, and to obtain several extensions for other groups., Comment: 12 pages

Published

2007

11. A bound on the number of edges in graphs without an even cycle

Author

Bukh, Boris and Zilin Jiang

Subjects

FOS: Mathematics, 19999 Mathematical Sciences not elsewhere classified, 16. Peace & justice

Abstract

We show that, for each fixed k, an n-vertex graph not containing a cycle of length 2k has at most 80√ k log k · n 1+1/k + O(n) edges.

12. A bound on the number of edges in graphs without an even cycle

Author

Bukh, Boris and Zilin Jiang

Subjects

FOS: Mathematics, 19999 Mathematical Sciences not elsewhere classified, 16. Peace & justice

Abstract

We show that, for each fixed k, an n-vertex graph not containing a cycle of length 2k has at most 80√ k log k · n 1+1/k + O(n) edges.