Open Problem Garden

Beneš Conjecture (graph-theoretic form) ★★★

Author(s): Beneš

Problem ( $\dag$ ) Find a sufficient condition for a straight $\ell$ -stage graph to be rearrangeable. In particular, what about a straight uniform graph?

Conjecture ( $\diamond$ ) Let $L$ be a simple regular ordered $2$ -stage graph. Suppose that the graph $L^m$ is externally connected, for some $m\ge1$ . Then the graph $L^{2m}$ is rearrangeable.

Keywords:

Posted by Vadim Lioubimov
updated April 17th, 2010

add new comment | 3 attachments

Packing T-joins ★★

Author(s): DeVos

Conjecture There exists a fixed constant $c$ (probably $c=1$ suffices) so that every graft with minimum $T$ -cut size at least $k$ contains a $T$ -join packing of size at least $(2/3)k-c$ .

Keywords: packing; T-join

Posted by mdevos
updated March 7th, 2007

add new comment

Finding k-edge-outerplanar graph embeddings ★★

Author(s): Bentz

Conjecture It has been shown that a $k$ -outerplanar embedding for which $k$ is minimal can be found in polynomial time. Does a similar result hold for $k$ -edge-outerplanar graphs?

Keywords: planar graph; polynomial algorithm

Posted by jcmeyer
updated April 18th, 2010

add new comment

Double-critical graph conjecture ★★

Author(s): Erdos; Lovasz

A connected simple graph $G$ is called double-critical, if removing any pair of adjacent vertexes lowers the chromatic number by two.

Conjecture $K_n$ is the only $n$ -chromatic double-critical graph

Keywords: coloring; complete graph

Posted by DFR
updated November 30th, 2009

2 comments

Weighted colouring of hexagonal graphs. ★★

Author(s): McDiarmid; Reed

Conjecture There is an absolute constant $c$ such that for every hexagonal graph $G$ and vertex weighting $p:V(G)\rightarrow \mathbb{N}$ , $\chi(G,p) \leq \frac{9}{8}\omega(G,p) + c$

Keywords:

Posted by fhavet
updated March 13th, 2013

add new comment

Strong colorability ★★★

Author(s): Aharoni; Alon; Haxell

Let $r$ be a positive integer. We say that a graph $G$ is strongly $r$ -colorable if for every partition of the vertices to sets of size at most $r$ there is a proper $r$ -coloring of $G$ in which the vertices in each set of the partition have distinct colors.

Conjecture If $\Delta$ is the maximal degree of a graph $G$ , then $G$ is strongly $2 \Delta$ -colorable.

Keywords: strong coloring

Posted by berger
updated November 19th, 2009

5 comments

Graph Theory » Coloring » Nowhere-zero flows

4-flow conjecture ★★★

Author(s): Tutte

Conjecture Every bridgeless graph with no Petersen minor has a nowhere-zero 4-flow.

Keywords: minor; nowhere-zero flow; Petersen graph

Posted by mdevos
updated April 12th, 2009

2 comments

Theoretical Comp. Sci. » Complexity » Derandomization

P vs. BPP ★★★

Author(s): Folklore

Conjecture Can all problems that can be computed by a probabilistic Turing machine (with error probability < 1/3) in polynomial time be solved by a deterministic Turing machine in polynomial time? That is, does P = BPP?

Keywords: BPP; circuit complexity; pseudorandom generators

Posted by Charles R Great...
updated June 14th, 2013

add new comment

Graph Theory » Coloring » Homomorphisms

Circular choosability of planar graphs ★

Author(s): Mohar

Let $G = (V, E)$ be a graph. If $p$ and $q$ are two integers, a $(p,q)$ -colouring of $G$ is a function $c$ from $V$ to $\{0,\dots,p-1\}$ such that $q \le |c(u)-c(v)| \le p-q$ for each edge $uv\in E$ . Given a list assignment $L$ of $G$ , i.e.~a mapping that assigns to every vertex $v$ a set of non-negative integers, an $L$ -colouring of $G$ is a mapping $c : V \to N$ such that $c(v)\in L(v)$ for every $v\in V$ . A list assignment $L$ is a $t$ - $(p,q)$ -list-assignment if $L(v) \subseteq \{0,\dots,p-1\}$ and $|L(v)| \ge tq$ for each vertex $v \in V$ . Given such a list assignment $L$ , the graph G is $(p,q)$ - $L$ -colourable if there exists a $(p,q)$ - $L$ -colouring $c$ , i.e. $c$ is both a $(p,q)$ -colouring and an $L$ -colouring. For any real number $t \ge 1$ , the graph $G$ is $t$ - $(p,q)$ -choosable if it is $(p,q)$ - $L$ -colourable for every $t$ - $(p,q)$ -list-assignment $L$ . Last, $G$ is circularly $t$ -choosable if it is $t$ - $(p,q)$ -choosable for any $p$ , $q$ . The circular choosability (or circular list chromatic number or circular choice number) of G is $cch(G) := \inf\{t \ge 1 : G \text{ is circularly $t$-choosable}\}.$

Problem What is the best upper bound on circular choosability for planar graphs?

Keywords: choosability; circular colouring; planar graphs

Posted by rosskang
updated August 23rd, 2012

add new comment

A generalization of Vizing's Theorem? ★★

Author(s): Rosenfeld

Conjecture Let $H$ be a simple $d$ -uniform hypergraph, and assume that every set of $d-1$ points is contained in at most $r$ edges. Then there exists an $r+d-1$ -edge-coloring so that any two edges which share $d-1$ vertices have distinct colors.

Keywords: edge-coloring; hypergraph; Vizing

Posted by mdevos
updated June 23rd, 2009

1 comment

Circular coloring triangle-free subcubic planar graphs ★★

Author(s): Ghebleh; Zhu

Problem Does every triangle-free planar graph of maximum degree three have circular chromatic number at most $\frac{20}{7}$ ?

Keywords: circular coloring; planar graph; triangle free

Posted by mdevos
updated June 20th, 2007

add new comment

Edge list coloring conjecture ★★★

Author(s):

Conjecture Let $G$ be a loopless multigraph. Then the edge chromatic number of $G$ equals the list edge chromatic number of $G$ .

Keywords:

Posted by tchow
updated September 25th, 2008

add new comment

Graph Theory » Basic G.T. » Matchings

The intersection of two perfect matchings ★★

Author(s): Macajova; Skoviera

Conjecture Every bridgeless cubic graph has two perfect matchings $M_1$ , $M_2$ so that $M_1 \cap M_2$ does not contain an odd edge-cut.

Keywords: cubic; nowhere-zero flow; perfect matching

Posted by mdevos
updated August 30th, 2007

add new comment

Choice Number of k-Chromatic Graphs of Bounded Order ★★

Author(s): Noel

Conjecture If $G$ is a $k$ -chromatic graph on at most $mk$ vertices, then $\text{ch}(G)\leq \text{ch}(K_{m*k})$ .

Keywords: choosability; complete multipartite graph; list coloring

Posted by Jon Noel
updated February 2nd, 2013

add new comment

Theoretical Comp. Sci. » Complexity

P vs. PSPACE ★★★

Author(s): Folklore

Problem Is there a problem that can be computed by a Turing machine in polynomial space and unbounded time but not in polynomial time? More formally, does P = PSPACE?

Keywords: P; PSPACE; separation; unconditional

Posted by cwenner
updated April 4th, 2009

add new comment

Graph Theory » Topological G.T. » Coloring

5-local-tensions ★★

Author(s): DeVos

Conjecture There exists a fixed constant $c$ (probably $c=4$ suffices) so that every embedded (loopless) graph with edge-width $\ge c$ has a 5-local-tension.

Keywords: coloring; surface; tension

Posted by mdevos
updated June 22nd, 2007

add new comment

Topology

What are hyperfuncoids isomorphic to? ★★

Author(s): Porton

Let $\mathfrak{A}$ be an indexed family of sets.

Products are $\prod A$ for $A \in \prod \mathfrak{A}$ .

Hyperfuncoids are filters $\mathfrak{F} \Gamma$ on the lattice $\Gamma$ of all finite unions of products.

Problem Is $\bigcap^{\mathsf{\tmop{FCD}}}$ a bijection from hyperfuncoids $\mathfrak{F} \Gamma$ to:

$\mathfrak{A}$

If yes, is $\operatorname{up}^{\Gamma}$ defining the inverse bijection? If not, characterize the image of the function $\bigcap^{\mathsf{\tmop{FCD}}}$ defined on $\mathfrak{F} \Gamma$ .

Consider also the variant of this problem with the set $\Gamma$ replaced with the set $\Gamma^{\ast}$ of complements of elements of the set $\Gamma$ .

Keywords: hyperfuncoids; multidimensional

Posted by porton
updated December 9th, 2014

add new comment

Combinatorics » Ramsey Theory

The large sets conjecture ★★★

Author(s): Brown; Graham; Landman

Conjecture If $A$ is 2-large, then $A$ is large.

Keywords: 2-large sets; large sets

Posted by vjungic
updated June 10th, 2007

add new comment

Petersen coloring conjecture ★★★

Author(s): Jaeger

Conjecture Let $G$ be a cubic graph with no bridge. Then there is a coloring of the edges of $G$ using the edges of the Petersen graph so that any three mutually adjacent edges of $G$ map to three mutually adjancent edges in the Petersen graph.

Keywords: cubic; edge-coloring; Petersen graph

Posted by mdevos
updated November 24th, 2011

2 comments

Graph Theory » Coloring

List Total Colouring Conjecture ★★

Author(s): Borodin; Kostochka; Woodall

Conjecture If $G$ is the total graph of a multigraph, then $\chi_\ell(G)=\chi(G)$ .

Keywords: list coloring; Total coloring; total graphs

Posted by Jon Noel
updated August 29th, 2013

add new comment

Graph Theory » Algebraic G.T.

Triangle free strongly regular graphs ★★★

Author(s):

Problem Is there an eighth triangle free strongly regular graph?

Keywords: strongly regular; triangle free

Posted by mdevos
updated February 23rd, 2012

3 comments

List chromatic number and maximum degree of bipartite graphs ★★

Author(s): Alon

Conjecture There is a constant $c$ such that the list chromatic number of any bipartite graph $G$ of maximum degree $\Delta$ is at most $c \log \Delta$ .

Keywords:

Posted by fhavet
updated March 12th, 2013

add new comment

Approximation Ratio for Maximum Edge Disjoint Paths problem ★★

Author(s): Bentz

Conjecture Can the approximation ratio $O(\sqrt{n})$ be improved for the Maximum Edge Disjoint Paths problem (MaxEDP) in planar graphs or can an inapproximability result stronger than $\mathcal{APX}$ -hardness?

Keywords: approximation algorithms; Disjoint paths; planar graph; polynomial algorithm

Posted by jcmeyer
updated April 18th, 2010

add new comment

Graph Theory » Basic G.T. » Cycles

Decomposing an eulerian graph into cycles. ★★

Author(s): Hajós

Conjecture Every simple eulerian graph on $n$ vertices can be decomposed into at most $\frac{1}{2}(n-1)$ cycles.

Keywords:

Posted by fhavet
updated March 4th, 2013

add new comment

Signing a graph to have small magnitude eigenvalues ★★

Author(s): Bilu; Linial

Conjecture If $A$ is the adjacency matrix of a $d$ -regular graph, then there is a symmetric signing of $A$ (i.e. replace some $+1$ entries by $-1$ ) so that the resulting matrix has all eigenvalues of magnitude at most $2 \sqrt{d-1}$ .

Keywords: eigenvalue; expander; Ramanujan graph; signed graph; signing

Posted by mdevos
updated March 24th, 2013

add new comment

Graph Theory » Basic G.T. » Matchings

The Berge-Fulkerson conjecture ★★★★

Author(s): Berge; Fulkerson

Conjecture If $G$ is a bridgeless cubic graph, then there exist 6 perfect matchings $M_1,\ldots,M_6$ of $G$ with the property that every edge of $G$ is contained in exactly two of $M_1,\ldots,M_6$ .

Keywords: cubic; perfect matching

Posted by mdevos
updated November 23rd, 2011

9 comments

Graph Theory » Extremal G.T.

What is the smallest number of disjoint spanning trees made a graph Hamiltonian ★★

Author(s): Goldengorin

We are given a complete simple undirected weighted graph $G_1=(V,E)$ and its first arbitrary shortest spanning tree $T_1=(V,E_1)$ . We define the next graph $G_2=(V,E\setminus E_1)$ and find on $G_2$ the second arbitrary shortest spanning tree $T_2=(V,E_2)$ . We continue similarly by finding $T_3=(V,E_3)$ on $G_3=(V,E\setminus \cup_{i=1}^{2}E_i)$ , etc. Let k be the smallest number of disjoint shortest spanning trees as defined above and let $T^{k}=(V,\cup_{i=1}^{k}E_i)$ be the graph obtained as union of all $k$ disjoint trees.

Question 1. What is the smallest number of disjoint spanning trees creates a graph $T^{k}$ containing a Hamiltonian path.

Question 2. What is the smallest number of disjoint spanning trees creates a graph $T^{k}$ containing a shortest Hamiltonian path?

Questions 3 and 4. Replace in questions 1 and 2 a shortest spanning tree by a 1-tree. What is the smallest number of disjoint 1-trees creates a Hamiltonian graph? What is the smallest number of disjoint 1-trees creates a graph containing a shortest Hamiltonian cycle?

Keywords: 1-trees; cycle; Hamitonian path; spanning trees

Posted by boris
updated September 10th, 2007

1 comment

Number Theory » Computational N.T.

Counterexamples to the Baillie-PSW primality test ★★

Author(s):

Problem (1) Find a counterexample to Baillie-PSW primality test or prove that there is no one.

Problem (2) Find a composite $n\equiv 3$ or $7\pmod{10}$ which divides both $2^{n-1} - 1$ (see Fermat pseudoprime) and the Fibonacci number $F_{n+1}$ (see Lucas pseudoprime), or prove that there is no such $n$ .

Keywords:

Posted by maxal
updated August 7th, 2007

add new comment

Switching reconstruction conjecture ★★

Author(s): Stanley

Conjecture Every simple graph on five or more vertices is switching-reconstructible.

Keywords: reconstruction

Posted by fhavet
updated March 7th, 2013

add new comment

Graph Theory » Topological G.T. » Crossing numbers

Crossing sequences ★★

Author(s): Archdeacon; Bonnington; Siran

Conjecture Let $(a_0,a_1,a_2,\ldots,0)$ be a sequence of nonnegative integers which strictly decreases until $0$ .

Then there exists a graph that be drawn on a surface with orientable (nonorientable, resp.) genus $i$ with $a_i$ crossings, but not with less crossings.

Keywords: crossing number; crossing sequence

Posted by Robert Samal
updated July 30th, 2008

add new comment

Graph Theory » Infinite Graphs

Hamiltonian cycles in powers of infinite graphs ★★

Author(s): Georgakopoulos

Conjecture

$G$

power

$G$

Keywords: hamiltonian; infinite graph

Posted by Robert Samal
updated July 24th, 2007

add new comment

Analysis

Inequality for square summable complex series ★★

Author(s): Retkes

Conjecture For all $\alpha=(\alpha_1,\alpha_2,\ldots)\in l_2(\cal{C})$ the following inequality holds $\sum_{n\geq 1}|\alpha_n|^2\geq \frac{6}{\pi^2}\sum_{k\geq0}\bigg| \sum_{l\geq0}\frac{1}{l+1}\alpha_{2^k(2l+1)}\bigg|^2$

Keywords: Inequality

Posted by tigris35711
updated October 29th, 2014

2 comments

Graph Theory » Coloring » Nowhere-zero flows

Unit vector flows ★★

Author(s): Jain

Conjecture For every graph $G$ without a bridge, there is a flow $\phi : E(G) \rightarrow S^2 = \{ x \in {\mathbb R}^3 : |x| = 1 \}$ .

Conjecture There exists a map $q:S^2 \rightarrow \{-4,-3,-2,-1,1,2,3,4\}$ so that antipodal points of $S^2$ receive opposite values, and so that any three points which are equidistant on a great circle have values which sum to zero.

Keywords: nowhere-zero flow

Posted by mdevos
updated March 7th, 2007

add new comment

Graph Theory » Coloring

4-regular 4-chromatic graphs of high girth ★★

Author(s): Grunbaum

Problem Do there exist 4-regular 4-chromatic graphs of arbitrarily high girth?

Keywords: coloring; girth

Posted by mdevos
updated January 29th, 2012

2 comments

Graph Theory » Basic G.T. » Paths

Decomposing a connected graph into paths. ★★★

Author(s): Gallai

Conjecture Every simple connected graph on $n$ vertices can be decomposed into at most $\frac{1}{2}(n+1)$ paths.

Keywords:

Posted by fhavet
updated March 4th, 2013

add new comment

Graph Theory » Directed Graphs

The Two Color Conjecture ★★

Author(s): Neumann-Lara

Conjecture If $G$ is an orientation of a simple planar graph, then there is a partition of $V(G)$ into $\{X_1,X_2\}$ so that the graph induced by $X_i$ is acyclic for $i=1,2$ .

Keywords: acyclic; digraph; planar

Posted by mdevos
updated May 31st, 2007

1 comment

Graph Theory » Directed Graphs

Hoàng-Reed Conjecture ★★★

Author(s): Hoang; Reed

Conjecture Every digraph in which each vertex has outdegree at least $k$ contains $k$ directed cycles $C_1, \ldots, C_k$ such that $C_j$ meets $\cup_{i=1}^{j-1}C_i$ in at most one vertex, $2 \leq j \leq k$ .

Keywords:

Posted by fhavet
updated March 11th, 2013

add new comment

Number Theory

Diophantine quintuple conjecture ★★

Author(s):

Definition A set of m positive integers $\{a_1, a_2, \dots, a_m\}$ is called a Diophantine $m$ -tuple if $a_i\cdot a_j + 1$ is a perfect square for all $1 \leq i < j \leq m$ .

Conjecture (1) Diophantine quintuple does not exist.

It would follow from the following stronger conjecture [Da]:

Conjecture (2) If $\{a, b, c, d\}$ is a Diophantine quadruple and $d > \max \{a, b, c\}$ , then $d = a + b + c + 2bc + 2\sqrt{(ab+1)(ac+1)(bc+1)}.$

Keywords:

Posted by maxal
updated November 22nd, 2008

add new comment

Graph Theory » Topological G.T. » Crossing numbers

The Crossing Number of the Hypercube ★★

Author(s): Erdos; Guy

The crossing number $cr(G)$ of $G$ is the minimum number of crossings in all drawings of $G$ in the plane.

The $d$ -dimensional (hyper)cube $Q_d$ is the graph whose vertices are all binary sequences of length $d$ , and two of the sequences are adjacent in $Q_d$ if they differ in precisely one coordinate.

Conjecture $\displaystyle \lim \frac{cr(Q_d)}{4^d} = \frac{5}{32}$

Keywords: crossing number; hypercube

Posted by Robert Samal
updated July 18th, 2008

1 comment

Geometry

Big Line or Big Clique in Planar Point Sets ★★

Author(s): Kara; Por; Wood

Let $S$ be a set of points in the plane. Two points $v$ and $w$ in $S$ are visible with respect to $S$ if the line segment between $v$ and $w$ contains no other point in $S$ .

Conjecture For all integers $k,\ell\geq2$ there is an integer $n$ such that every set of at least $n$ points in the plane contains at least $\ell$ collinear points or $k$ pairwise visible points.

Keywords: Discrete Geometry; Geometric Ramsey Theory

Posted by David Wood
updated September 25th, 2012

1 comment

Topology

Every metamonovalued reloid is monovalued ★★

Author(s): Porton

Conjecture Every metamonovalued reloid is monovalued.

Keywords:

Posted by porton
updated September 17th, 2013

add new comment

Number Theory » Computational N.T.

A sextic counterexample to Euler's sum of powers conjecture ★★

Author(s): Euler

Problem Find six positive integers $x_1, x_2, \dots, x_6$ such that $x_1^6 + x_2^6 + x_3^6 + x_4^6 + x_5^6 = x_6^6$ or prove that such integers do not exist.

Keywords:

Posted by maxal
updated August 5th, 2007

add new comment

Logic

F_d versus F_{d+1} ★★★

Author(s): Krajicek

Problem Find a constant $k$ such that for any $d$ there is a sequence of tautologies of depth $k$ that have polynomial (or quasi-polynomial) size proofs in depth $d+1$ Frege system $F_{d+1}$ but requires exponential size $F_d$ proofs.

Keywords: Frege system; short proof

Posted by zitterbewegung
updated October 18th, 2007

add new comment