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3 votes
2 answers
336 views

Algorithm to evaluate "connectedness" of a binary matrix

I have the following problem: given an $m \times n$ binary matrix $A$ like e.g. the following $9 \times 39$ matrix: ...
Fabius Wiesner's user avatar
0 votes
0 answers
16 views

Complexity of finding single source paths with capacity constraints and length constraints

Let $G=(V,A)$ be a directed graph with distinguished vertex $s\in V$ and let $c:A\rightarrow{\mathbb N}$ denote arc capacities. For any $t\in V,t\not=s$ we are given two numbers: $C_{t},L_{t}$. Let $...
Yossi Peretz's user avatar
7 votes
1 answer
171 views

Metric TSP with integer edge cost

Given a metric TSP with integer edge cost upper-bounded by a constant $C_{\max}$, can we find an poly-time algorithm solving this TSP instance?
lchen's user avatar
  • 367
0 votes
0 answers
26 views

Complexity of heaviest 2-optimal vertex-disjoint cycle covers

Calculating lightest vertex-disjoint cycle covers of finite complete symmetric graphs with weighted edges can be done efficiently and also renders the edge set of the calculated cycles free of pairs ...
Manfred Weis's user avatar
  • 13.2k
0 votes
1 answer
354 views

Maximize sum of edge weights on spanning tree

Problem: Given a complete graph with n vertices, the edge weight between vertex $i$ and vertex $j$ is $b[i]\times b[j]$. Under the condition that the degree of point $i$ on spanning tree is DEG $[i]$, ...
Max David's user avatar
2 votes
0 answers
33 views

Algorithm for lightest unnested planar vertex-disjoint cycle-cover

Question: given a finite set $\mathcal{P}$ of disjoint points in the Euclidean plane and the set $\mathcal{C}$ of all simple polygons whose corners are subsets of $\mathcal{P}$, what is the ...
Manfred Weis's user avatar
  • 13.2k
2 votes
0 answers
27 views

Complexity of weighted fractional edge coloring

Given an edge-weighted multigraph $G=(V,E)$ with a positive, rational weight function $(w(e): e \in E)$, the weighted fractional edge coloring problem (WFECP) is to compute ($\min 1^T x$ subject to $...
mo2019's user avatar
  • 151
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 ...
Taras Banakh's user avatar
  • 41.8k
1 vote
0 answers
140 views

Is the partition of bipartite graphs NP-hard?

I wonder if the following problem is NP-hard. Is it? Given a bipartite graph $G = (U, V, E)$ with weights $w : E \to \mathbb{R}_+$, find a partition of $U$ into $U_1, U_2$ and nonempty disjoint ...
Thomas Edison's user avatar
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,\...
Thomas Edison's user avatar
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 ...
Pavan Sangha's user avatar
1 vote
2 answers
256 views

Maximum subgraph edge distance greater than given number

I have a weighted graph G with approximately 75000 nodes. I would like to find subgraph G' induced on a subset of nodes, such that all edge weights in G' are greater than a given constant C and the ...
user1747134's user avatar
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 ...
Thomas Kalinowski's user avatar
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 ...
Quentin Fortier's user avatar