When considering a graph problem from a parameterized point of view, the parameter chosen is often the size of an optimal solution of this problem (the "standard"). A natural subject for investigation is what happens when we parameterize such a problem by the size of an optimal solution of a different problem. We provide a framework for doing such analysis. In particular, we investigate seven natural vertex problems, along with their respective parameters: α (the size of a maximum independent set), τ (the size of a minimum vertex cover), ω (the size of a maximum clique), χ (the chromatic number), γ (the size of a minimum dominating set), i (the size of a minimum independent dominating set) and ν (the size of a minimum feedback vertex set). ...
Many parametrized problems were decided to be FPT or W-hard. However, there is still thousands of pr...
The Maximum Common Induced Subgraph problem (MCIS ) takes a pair of graphs as input and asks for a ...
For a graph parameter π, the Contraction(π) problem consists in, given a graph G and two positive in...
When considering a graph problem from a parameterized point of view, the parameter chosen is often t...
We investigate the following above-guarantee parameterization of the classical Vertex Cover problem:...
In the framework of parameterized complexity, exploring how one parameter affects the complexity of ...
In the framework of parameterized complexity, exploring how one parameter affects the complexity of ...
In the framework of parameterized complexity, exploring how one parameter affects the complexity of ...
The main focus of this thesis is on using the divide and conquer technique to efficiently solve grap...
MAX (k, n−k)-CUT (resp., MIN (k, n−k)-CUT) is a constrained version of MAX-CUT (resp.,MIN-CUT) where...
We study the parameterized complexity of a broad class of problems called “local graph partitioning ...
Structural Properties of Graphs and Eficient Algorithms: Problems Between Parameters Dušan Knop Para...
This work introduces two new parameterizations of graph problems generalizing vertex cover which fil...
In the framework of parameterized complexity, one of the most commonly used structural parameters is...
Die Kernaufgabe der parameterisierten Komplexität ist zu verstehen, wie Eingabestruktur die Problemk...
Many parametrized problems were decided to be FPT or W-hard. However, there is still thousands of pr...
The Maximum Common Induced Subgraph problem (MCIS ) takes a pair of graphs as input and asks for a ...
For a graph parameter π, the Contraction(π) problem consists in, given a graph G and two positive in...
When considering a graph problem from a parameterized point of view, the parameter chosen is often t...
We investigate the following above-guarantee parameterization of the classical Vertex Cover problem:...
In the framework of parameterized complexity, exploring how one parameter affects the complexity of ...
In the framework of parameterized complexity, exploring how one parameter affects the complexity of ...
In the framework of parameterized complexity, exploring how one parameter affects the complexity of ...
The main focus of this thesis is on using the divide and conquer technique to efficiently solve grap...
MAX (k, n−k)-CUT (resp., MIN (k, n−k)-CUT) is a constrained version of MAX-CUT (resp.,MIN-CUT) where...
We study the parameterized complexity of a broad class of problems called “local graph partitioning ...
Structural Properties of Graphs and Eficient Algorithms: Problems Between Parameters Dušan Knop Para...
This work introduces two new parameterizations of graph problems generalizing vertex cover which fil...
In the framework of parameterized complexity, one of the most commonly used structural parameters is...
Die Kernaufgabe der parameterisierten Komplexität ist zu verstehen, wie Eingabestruktur die Problemk...
Many parametrized problems were decided to be FPT or W-hard. However, there is still thousands of pr...
The Maximum Common Induced Subgraph problem (MCIS ) takes a pair of graphs as input and asks for a ...
For a graph parameter π, the Contraction(π) problem consists in, given a graph G and two positive in...