Open Problem Garden

Vertex Coloring of graph fractional powers ★★★

Author(s): Iradmusa

Conjecture Let $G$ be a graph and $k$ be a positive integer. The $k-$ power of $G$ , denoted by $G^k$ , is defined on the vertex set $V(G)$ , by connecting any two distinct vertices $x$ and $y$ with distance at most $k$ . In other words, $E(G^k)=\{xy:1\leq d_G(x,y)\leq k\}$ . Also $k-$ subdivision of $G$ , denoted by $G^\frac{1}{k}$ , is constructed by replacing each edge $ij$ of $G$ with a path of length $k$ . Note that for $k=1$ , we have $G^\frac{1}{1}=G^1=G$ .
Now we can define the fractional power of a graph as follows:
Let $G$ be a graph and $m,n\in \mathbb{N}$ . The graph $G^{\frac{m}{n}}$ is defined by the $m-$ power of the $n-$ subdivision of $G$ . In other words $G^{\frac{m}{n}}\isdef (G^{\frac{1}{n}})^m$ .
Conjecture. Let $G$ be a connected graph with $\Delta(G)\geq3$ and $m$ be a positive integer greater than 1. Then for any positive integer $n>m$ , we have $\chi(G^{\frac{m}{n}})=\omega(G^\frac{m}{n})$ .
In [1], it was shown that this conjecture is true in some special cases.

Keywords: chromatic number, fractional power of graph, clique number

Posted by Iradmusa
updated July 13th, 2011

1 comment

Graph Theory » Basic G.T. » Minors

Jorgensen's Conjecture ★★★

Author(s): Jorgensen

Conjecture Every 6-connected graph without a $K_6$ minor is apex (planar plus one vertex).

Keywords: connectivity; minor

Posted by mdevos
updated March 10th, 2007

add new comment

Number Theory » Combinatorial N.T.

Frobenius number of four or more integers ★★

Author(s):

Problem Find an explicit formula for Frobenius number $g(a_1, a_2, \dots, a_n)$ of co-prime positive integers $a_1, a_2, \dots, a_n$ for $n\geq 4$ .

Keywords:

Posted by maxal
updated November 26th, 2008

add new comment

Sticky Cantor sets ★★

Author(s):

Conjecture Let $C$ be a Cantor set embedded in $\mathbb{R}^n$ . Is there a self-homeomorphism $f$ of $\mathbb{R}^n$ for every $\epsilon$ greater than $0$ so that $f$ moves every point by less than $\epsilon$ and $f(C)$ does not intersect $C$ ? Such an embedded Cantor set for which no such $f$ exists (for some $\epsilon$ ) is called "sticky". For what dimensions $n$ do sticky Cantor sets exist?

Keywords: Cantor set

Posted by porton
updated April 10th, 2012

2 comments

Graph Theory » Coloring

Linial-Berge path partition duality ★★★

Author(s): Berge; Linial

Conjecture The minimum $k$ -norm of a path partition on a directed graph $D$ is no more than the maximal size of an induced $k$ -colorable subgraph.

Keywords: coloring; directed path; partition

Posted by berger
updated September 19th, 2007

2 comments

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

Graph Theory » Basic G.T. » Minors

Seagull problem ★★★

Author(s): Seymour

Conjecture Every $n$ vertex graph with no independent set of size $3$ has a complete graph on $\ge \frac{n}{2}$ vertices as a minor.

Keywords: coloring; complete graph; minor

Posted by mdevos
updated January 6th, 2008

add new comment

Every prism over a 3-connected planar graph is hamiltonian. ★★

Author(s): Kaiser; Král; Rosenfeld; Ryjácek; Voss

Conjecture If $G$ is a $3$ -connected planar graph, then $G\square K_2$ has a Hamilton cycle.

Keywords:

Posted by fhavet
updated March 11th, 2013

add new comment

Graph Theory » Algebraic G.T.

Hamiltonian paths and cycles in vertex transitive graphs ★★★

Author(s): Lovasz

Problem Does every connected vertex-transitive graph have a Hamiltonian path?

Keywords: cycle; hamiltonian; path; vertex-transitive

Posted by mdevos
updated March 18th, 2007

add new comment

Theoretical Comp. Sci. » Complexity

One-way functions exist ★★★★

Author(s):

Conjecture One-way functions exist.

Keywords: one way function

Posted by porton
updated October 12th, 2014

add new comment

Logic » Finite Model Theory

Monadic second-order logic with cardinality predicates ★★

Author(s): Courcelle

The problem concerns the extension of Monadic Second Order Logic (over a binary relation representing the edge relation) with the following atomic formulas:

$\text{``}\,\mathrm{Card}(X) = \mathrm{Card}(Y)\,\text{''}$

$\text{``}\,\mathrm{Card}(X) \text{ belongs to } A\,\text{''}$

where $A$ is a fixed recursive set of integers.

Let us fix $k$ and a closed formula $F$ in this language.

Conjecture Is it true that the validity of $F$ for a graph $G$ of tree-width at most $k$ can be tested in polynomial time in the size of $G$ ?

Keywords: bounded tree width; cardinality predicates; FMT03-Bedlewo; MSO

Posted by dberwanger
updated May 18th, 2012

add new comment

Geometry

Kneser–Poulsen conjecture ★★★

Author(s): Kneser; Poulsen

Conjecture If a finite set of unit balls in $\mathbb{R}^n$ is rearranged so that the distance between each pair of centers does not decrease, then the volume of the union of the balls does not decrease.

Keywords: pushing disks

Posted by tchow
updated September 25th, 2008

add new comment

Theoretical Comp. Sci. » Complexity

Discrete Logarithm Problem ★★★

Author(s):

If $p$ is prime and $g,h \in {\mathbb Z}_p^*$ , we write $\log_g(h) = n$ if $n \in {\mathbb Z}$ satisfies $g^n = h$ . The problem of finding such an integer $n$ for a given $g,h \in {\mathbb Z}^*_p$ (with $g \neq 1$ ) is the Discrete Log Problem.

Conjecture There does not exist a polynomial time algorithm to solve the Discrete Log Problem.

Keywords: discrete log; NP

Posted by cplxphil
updated February 25th, 2013

3 comments

Hamiltonian cycles in line graphs ★★★

Author(s): Thomassen

Conjecture Every 4-connected line graph is hamiltonian.

Keywords: hamiltonian; line graphs

Posted by Robert Samal
updated July 24th, 2007

add new comment

Number Theory

Alexa's Conjecture on Primality ★★

Author(s): Alexa

Definition Let $r_i$ be the unique integer (with respect to a fixed $p\in\mathbb{N}$ ) such that

$(2i+1)^{p-1} \equiv r_i \pmod p ~~\text{ and } ~ 0 \le r_i < p.$

Conjecture A natural number $p \ge 8$ is a prime iff $\displaystyle \sum_{i=1}^{\left \lfloor \frac{\sqrt[3]p}{2} \right \rfloor} r_i = \left \lfloor \frac{\sqrt[3]p}{2} \right \rfloor$

Keywords: primality

Posted by princeps
updated June 14th, 2013

7 comments

4-connected graphs are not uniquely hamiltonian ★★

Author(s): Fleischner

Conjecture Every $4$ -connected graph with a Hamilton cycle has a second Hamilton cycle.

Keywords:

Posted by fhavet
updated March 11th, 2013

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

Graph Theory » Basic G.T. » Paths

Partition of a cubic 3-connected graphs into paths of length 2. ★★

Author(s): Kelmans

Problem Does every $3$ -connected cubic graph on $3k$ vertices admit a partition into $k$ paths of length $2$ ?

Keywords:

Posted by fhavet
updated March 4th, 2013

add new comment

Stable set meeting all longest directed paths. ★★

Author(s): Laborde; Payan; Xuong N.H.

Conjecture Every digraph has a stable set meeting all longest directed paths

Keywords:

Posted by fhavet
updated March 1st, 2013

add new comment

The circular embedding conjecture ★★★

Author(s): Haggard

Conjecture Every 2-connected graph may be embedded in a surface so that the boundary of each face is a cycle.

Keywords: cover; cycle

Posted by mdevos
updated March 7th, 2007

add new comment

Graph Theory » Hypergraphs

Frankl's union-closed sets conjecture ★★

Author(s): Frankl

Conjecture Let $F$ be a finite family of finite sets, not all empty, that is closed under taking unions. Then there exists $x$ such that $x$ is an element of at least half the members of $F$ .

Keywords:

Posted by tchow
updated December 17th, 2009

2 comments

Graph Theory » Infinite Graphs

Unions of triangle free graphs ★★★

Author(s): Erdos; Hajnal

Problem Does there exist a graph with no subgraph isomorphic to $K_4$ which cannot be expressed as a union of $\aleph_0$ triangle free graphs?

Keywords: forbidden subgraph; infinite graph; triangle free

Posted by mdevos
updated June 4th, 2007

add new comment

Exact colorings of graphs ★★

Author(s): Erickson

Conjecture For $c \geq m \geq 1$ , let $P(c,m)$ be the statement that given any exact $c$ -coloring of the edges of a complete countably infinite graph (that is, a coloring with $c$ colors all of which must be used at least once), there exists an exactly $m$ -colored countably infinite complete subgraph. Then $P(c,m)$ is true if and only if $m=1$ , $m=2$ , or $c=m$ .

Keywords: graph coloring; ramsey theory

Posted by Martin Erickson
updated June 29th, 2010

add new comment

Graph Theory » Directed Graphs

Arc-disjoint out-branching and in-branching ★★

Author(s): Thomassen

Conjecture There exists an integer $k$ such that every $k$ -arc-strong digraph $D$ with specified vertices $u$ and $v$ contains an out-branching rooted at $u$ and an in-branching rooted at $v$ which are arc-disjoint.

Keywords:

Posted by fhavet
updated March 2nd, 2013

add new comment

Number Theory » Analytic N.T.

Lindelöf hypothesis ★★

Author(s): Lindelöf

Conjecture For any $\epsilon>0$ $\zeta\left(\frac12 + it\right) \mbox{ is }\mathcal{O}(t^\epsilon).$

Since $\epsilon$ can be replaced by a smaller value, we can also write the conjecture as, for any positive $\epsilon$ , $\zeta\left(\frac12 + it\right) \mbox{ is }o(t^\varepsilon).$

Keywords: Riemann Hypothesis; zeta

Posted by porton
updated September 20th, 2010

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

Geometry

Convex Equipartitions with Extreme Perimeter ★★

Author(s): Nandakumar

To divide a given 2D convex region C into a specified number n of convex pieces all of equal area (perimeters could be different) such that the total perimeter of pieces is (1) maximized (2) minimized.

Remark: It appears maximizing the total perimeter is the easier problem.

Keywords: convex equipartition

Posted by Nandakumar
updated October 22nd, 2015

add new comment

Number Theory » Combinatorial N.T.

Snevily's conjecture ★★★

Author(s): Snevily

Conjecture Let $G$ be an abelian group of odd order and let $A,B \subseteq G$ satisfy $|A| = |B| = k$ . Then the elements of $A$ and $B$ may be ordered $A = \{a_1,\ldots,a_k\}$ and $B = \{b_1,\ldots,b_k\}$ so that the sums $a_1+b_1, a_2+b_2 \ldots, a_k + b_k$ are pairwise distinct.

Keywords: addition table; latin square; transversal

Posted by mdevos
updated May 27th, 2011

1 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 » Infinite Graphs

Unfriendly partitions ★★★

Author(s): Cowan; Emerson

If $G$ is a graph, we say that a partition of $V(G)$ is unfriendly if every vertex has at least as many neighbors in the other classes as in its own.

Problem Does every countably infinite graph have an unfriendly partition into two sets?

Keywords: coloring; infinite graph; partition

Posted by mdevos
updated October 22nd, 2007

add new comment

Graph Theory » Coloring » Vertex coloring

Circular colouring the orthogonality graph ★★

Author(s): DeVos; Ghebleh; Goddyn; Mohar; Naserasr

Let ${\mathcal O}$ denote the graph with vertex set consisting of all lines through the origin in ${\mathbb R}^3$ and two vertices adjacent in ${\mathcal O}$ if they are perpendicular.

Problem Is $\chi_c({\mathcal O}) = 4$ ?

Keywords: circular coloring; geometric graph; orthogonality

Posted by mdevos
updated September 28th, 2009

4 comments

Decomposition of completions of reloids ★★

Author(s): Porton

Conjecture For composable reloids $f$ and $g$ it holds

$\operatorname{Compl} ( g \circ f) = ( \operatorname{Compl} g) \circ f$

$f$

$\operatorname{CoCompl} ( f \circ g) = f \circ \operatorname{CoCompl} g$

$f$

$\operatorname{CoCompl} ( ( \operatorname{Compl} g) \circ f) = \operatorname{Compl} ( g \circ ( \operatorname{CoCompl} f)) = ( \operatorname{Compl} g) \circ ( \operatorname{CoCompl} f)$

$\operatorname{Compl} ( g \circ ( \operatorname{Compl} f)) = \operatorname{Compl} ( g \circ f)$

$\operatorname{CoCompl} ( ( \operatorname{CoCompl} g) \circ f) = \operatorname{CoCompl} ( g \circ f)$

Keywords: co-completion; completion; reloid

Posted by porton
updated September 2nd, 2013

add new comment

Shuffle-Exchange Conjecture (graph-theoretic form) ★★★

Author(s): Beneš; Folklore; Stone

Given integers $k,n \ge 2$ , the 2-stage Shuffle-Exchange graph/network, denoted $\text{SE}(k,n)$ , is the simple $k$ -regular bipartite graph with the ordered pair $(U,V)$ of linearly labeled parts $U:=\{u_0,\dots,u_{t-1}\}$ and $V:=\{v_0,\dots,v_{t-1}\}$ , where $t:=k^{n-1}$ , such that vertices $u_i$ and $v_j$ are adjacent if and only if $(j - ki) \text{ mod } t < k$ (see Fig.1).

Given integers $k,n,r \ge 2$ , the $r$ -stage Shuffle-Exchange graph/network, denoted $(\text{SE}(k,n))^{r-1}$ , is the proper (i.e., respecting all the orders) concatenation of $r-1$ identical copies of $\text{SE}(k,n)$ (see Fig.1).

Let $r(k,n)$ be the smallest integer $r\ge 2$ such that the graph $(\text{SE}(k,n))^{r-1}$ is rearrangeable.

Problem Find $r(k,n)$ .

Conjecture $r(k,n)=2n-1$ .

Keywords:

Posted by Vadim Lioubimov
updated October 30th, 2009

add new comment

Graph Theory » Basic G.T. » Connectivity

Kriesell's Conjecture ★★

Author(s): Kriesell

Conjecture Let $G$ be a graph and let $T\subseteq V(G)$ such that for any pair $u,v\in T$ there are $2k$ edge-disjoint paths from $u$ to $v$ in $G$ . Then $G$ contains $k$ edge-disjoint trees, each of which contains $T$ .

Keywords: Disjoint paths; edge-connectivity; spanning trees

Posted by Jon Noel
updated August 25th, 2013

add new comment

Graph Theory » Basic G.T.

Nearly spanning regular subgraphs ★★★

Author(s): Alon; Mubayi

Conjecture For every $\epsilon > 0$ and every positive integer $k$ , there exists $r_0 = r_0(\epsilon,k)$ so that every simple $r$ -regular graph $G$ with $r \ge r_0$ has a $k$ -regular subgraph $H$ with $|V(H)| \ge (1- \epsilon) |V(G)|$ .

Keywords: regular; subgraph

Posted by mdevos
updated May 22nd, 2008

add new comment

Number Theory » Analytic N.T.

Is Skewes' number e^e^e^79 an integer? ★★

Author(s):

Conjecture

Skewes' number $e^{e^{e^{79}}}$ is not an integer.

Keywords:

Posted by VladimirReshetnikov
updated April 29th, 2012

1 comment

Graph Theory » Directed Graphs

Long directed cycles in diregular digraphs ★★★

Author(s): Jackson

Conjecture Every strong oriented graph in which each vertex has indegree and outdegree at least $d$ contains a directed cycle of length at least $2d+1$ .

Keywords:

Posted by fhavet
updated March 1st, 2013

add new comment

Graph Theory » Directed Graphs

Non-edges vs. feedback edge sets in digraphs ★★★

Author(s): Chudnovsky; Seymour; Sullivan

For any simple digraph $G$ , we let $\gamma(G)$ be the number of unordered pairs of nonadjacent vertices (i.e. the number of non-edges), and $\beta(G)$ be the size of the smallest feedback edge set.

Conjecture If $G$ is a simple digraph without directed cycles of length $\le 3$ , then $\beta(G) \le \frac{1}{2} \gamma(G)$ .

Keywords: acyclic; digraph; feedback edge set; triangle free

Posted by mdevos
updated July 8th, 2008

add new comment

Number Theory » Combinatorial N.T.

The 3n+1 conjecture ★★★

Author(s): Collatz

Conjecture Let $f(n) = 3n+1$ if $n$ is odd and $\frac{n}{2}$ if $n$ is even. Let $f(1) = 1$ . Assume we start with some number $n$ and repeatedly take the $f$ of the current number. Prove that no matter what the initial number is we eventually reach $1$ .

Keywords: integer sequence

Posted by dododododo
updated July 11th, 2014

4 comments

Group Theory

Burnside problem ★★★★

Author(s): Burnside

Conjecture If a group has $r$ generators and exponent $n$ , is it necessarily finite?

Keywords:

Posted by dlh12
updated April 11th, 2008

add new comment

Covering powers of cycles with equivalence subgraphs ★

Author(s):

Conjecture Given $k$ and $n$ , the graph $C_{n}^k$ has equivalence covering number $\Omega(k)$ .

Keywords:

Posted by Andrew King
updated July 7th, 2011

add new comment

Algebra

inverse of an integer matrix ★★

Author(s): Gregory

Question I've been working on this for a long time and I'm getting nowhere. Could you help me or at least tell me where to look for help. Suppose D is an m-by-m diagonal matrix with integer elements all $\ge 2$ . Suppose X is an m-by-n integer matrix $(m \le n)$ . Consider the partitioned matrix M = [D X]. Obviously M has full row rank so it has a right inverse of rational numbers. The question is, under what conditions does it have an integer right inverse? My guess, which I can't prove, is that the integers in each row need to be relatively prime.

Keywords: invertable matrices, integer matrices

Posted by lvoyster
updated May 27th, 2013

add new comment

Every metamonovalued funcoid is monovalued ★★

Author(s): Porton

Conjecture Every metamonovalued funcoid is monovalued.

The reverse is almost trivial: Every monovalued funcoid is metamonovalued.

Keywords: monovalued

Posted by porton
updated September 17th, 2013

add new comment

Graph Theory » Coloring » Vertex coloring

Cycles in Graphs of Large Chromatic Number ★★

Author(s): Brewster; McGuinness; Moore; Noel

Conjecture If $\chi(G)>k$ , then $G$ contains at least $\frac{(k+1)(k-1)!}{2}$ cycles of length $0\bmod k$ .

Keywords: chromatic number; cycles

Posted by Jon Noel
updated September 20th, 2015

add new comment

Barnette's Conjecture ★★★

Author(s): Barnette

Conjecture Every 3-connected cubic planar bipartite graph is Hamiltonian.

Keywords: bipartite; cubic; hamiltonian

Posted by Robert Samal
updated August 9th, 2011

1 comment