All Questions
12 questions
5
votes
1
answer
291
views
Minimum number of edges to remove to have low degree
I have the following problem, where $k$ is a fixed integer.
Input: Graph $G$.
Output: Minimum number of edges to remove from $G$ to obtain a graph such that every node has degree at most $k$.
Do ...
- 613
4
votes
0
answers
175
views
What is known about the complexity of this covering problem?
Let $G=(V,E)$ be a graph. A vertex set $X\subseteq V$ is called critical if $X\neq\emptyset$ and no vertex in $V\setminus X$ is adjacent to exactly one vertex in $X$. The problem is to find a vertex ...
- 2,966
3
votes
1
answer
214
views
NP-hardness of finding maximum of minimum element in diagonal of a matrix
For $A = \{a_{ij}\} \in R^{n\times n}$, is finding
$$
\max_{\sigma \in S_n}\min_{1 \le i \le n} a_{i,\ \sigma_i}
$$
NP-hard?
- 163
3
votes
1
answer
509
views
Application of Combinatorics, Logic and computability theory in physical science: Tiling of Wang Tile with proportionality
The original problem of Domino Tiling and Wang Tile has great theoretical interest on computability theory... However, the great emerging problem on application of Wang Tile in material science and ...
- 867
2
votes
0
answers
62
views
A combinatorial question about encoding the subsets of logarithmic-bounded cardinality
Let $k \in \mathbb N - \{0\}$ and $f(n) = \binom n 0 + \binom n 1 + \dotsc + \binom n {\log^k n}$.
Our question is:
$f(n) = o(2^{\log^{k+1} \ (n)})$ or $f(n) = \Theta(2^{\log^{k+1} \ (n)})$, which ...
- 193
1
vote
1
answer
332
views
Graph colouring for bounded degree graphs
I'm fairly new to colourings on bounded degree graphs i'm interested in the following questions,
For planar graphs with bounded degree $4$ is finding the colouring number $NP$-hard? So is ...
- 903
1
vote
1
answer
206
views
Show $0-1$ Knapsack is polynomially reducible to this problem
I have already posted this question here but have not received an answer so I am cross-posting with hope to reach a larger amount of mathematicians:
Let $T=\{1,\cdots,n\}$ and consider the ...
- 225
1
vote
1
answer
82
views
The complexity on calculation of the Graev metric on the free Boolean group of a metric space
For a set $X$ by $B(X)$ we denote the family of all finite subsets of $X$ endowed with the operation $\oplus$ of symmetric difference. This operation turns $B(X)$ into a Boolean group, which can be ...
- 41.9k
1
vote
0
answers
101
views
On determinant and permanent of certain homotopy defined simple matrices
Let $A_1,A_2,B_1,B_2$ be four $n\times n$ $0/1$ square matrices where $$\det(A_1)=\det(A_2)=per(A_1)=per(A_2)=1$$
$$\det(B_1)=\det(B_2)=per(B_1)=per(B_2)=0$$
hold ($per$ refers to permanent).
I. What ...
- 13.9k
1
vote
0
answers
1k
views
Number of different combinations in a 0-1 knapsack problem with integer weights [closed]
My question is actually very similar to this other one: Given a vector of positive integers, count the number of combinations which have a sum that produces a different value. But, since this previous ...
- 153
0
votes
1
answer
140
views
Maximum partition of bipartite graph
Let $G = (U, V, E)$ be a bipartite graph. Let $w: E \to \mathbb{R}$ be a weight function on the edge set $E$. Given subsets $U_1,\ldots, U_k \subset U, U_i\cap U_j = \emptyset$ and a partition $V_1,\...
- 221
0
votes
0
answers
92
views
Algorithm that can solve or approximate the solution to a combination problem
I have a computational problem on my hands and I would like your help.
Here is my problem (simplified)
Let $X = \{x_1, x_2, \ldots, x_n\}$ represent a set of $n$ values.
Each value $x_i$ has a ...
- 1