We study the parameterized complexity of dominating sets in geometric intersection graphs. • In one dimension, we investigate intersection graphs induced by translates of a fixed pattern Q that consists of a finite number of intervals and a finite number of isolated points. We prove that Dominating Set on such intersection graphs is polynomially solvable whenever Q contains at least one interval, and whenever Q contains no intervals and for any two point pairs in Q the distance ratio is rational. The remaining case where Q contains no intervals but does contain an irrational distance ratio is shown to be NP-complete and contained in FPT (when parameterized by the solution size). • In two and higher dimensions, we prove that Dominating Set i...
Abstract. We investigate the parameterized complexity of Maximum Independent Set and Dominating Set ...
Abstract. For intersection graphs of disks and other fat objects, polynomial-time approximation sche...
For intersection graphs of disks and other fat objects, polynomial-time approximation schemes are kn...
\u3cp\u3eWe study the parameterized complexity of dominating sets in geometric intersection graphs. ...
We study the parameterized complexity of dominating sets in geometric intersection graphs. • In one ...
We study the parameterized complexity of dominating sets in geometric intersection graphs. In one di...
We study the parameterized complexity of dominating sets in geometric intersection graphs. In one di...
\u3cp\u3eWe study the parameterized complexity of the dominating set problem in geometric intersecti...
We study the parameterized complexity of dominating sets in geometric intersection graphs. In one di...
We study the parameterized complexity of the dominating set problem in geometric intersection graphs...
We study the parameterized complexity of the dominating set problem in geometric intersection graphs...
We study the parameterized complexity of the dominating set problem in geometric intersection graphs...
We study the parameterized complexity of the dominating set problem in geometric intersection graphs...
We study the parameterized complexity of dominating sets in geometric intersection graphs. • In one ...
We study the parameterized complexity of dominating sets in geometric intersection graphs. • In one ...
Abstract. We investigate the parameterized complexity of Maximum Independent Set and Dominating Set ...
Abstract. For intersection graphs of disks and other fat objects, polynomial-time approximation sche...
For intersection graphs of disks and other fat objects, polynomial-time approximation schemes are kn...
\u3cp\u3eWe study the parameterized complexity of dominating sets in geometric intersection graphs. ...
We study the parameterized complexity of dominating sets in geometric intersection graphs. • In one ...
We study the parameterized complexity of dominating sets in geometric intersection graphs. In one di...
We study the parameterized complexity of dominating sets in geometric intersection graphs. In one di...
\u3cp\u3eWe study the parameterized complexity of the dominating set problem in geometric intersecti...
We study the parameterized complexity of dominating sets in geometric intersection graphs. In one di...
We study the parameterized complexity of the dominating set problem in geometric intersection graphs...
We study the parameterized complexity of the dominating set problem in geometric intersection graphs...
We study the parameterized complexity of the dominating set problem in geometric intersection graphs...
We study the parameterized complexity of the dominating set problem in geometric intersection graphs...
We study the parameterized complexity of dominating sets in geometric intersection graphs. • In one ...
We study the parameterized complexity of dominating sets in geometric intersection graphs. • In one ...
Abstract. We investigate the parameterized complexity of Maximum Independent Set and Dominating Set ...
Abstract. For intersection graphs of disks and other fat objects, polynomial-time approximation sche...
For intersection graphs of disks and other fat objects, polynomial-time approximation schemes are kn...