Geometric covering is a well-studied topic in computational geometry. We study three covering problems: Disjoint Unit-Disk Cover, Depth-(≤ K) Packing and Red-Blue Unit-Square Cover. In the Disjoint Unit-Disk Cover problem, we are given a point set and want to cover the maximum number of points using disjoint unit disks. We prove that the problem is NP-complete and give a polynomial-time approximation scheme (PTAS) for it. In Depth-(≤ K) Packing for Arbitrary-Size Disks/Squares, we are given a set of arbitrary-size disks/squares, and want to find a subset with depth at most K and maximizing the total area. We prove a depth reduction theorem and present a PTAS. In Red-Blue Unit-Square Cover, we are given a red point set, a blue point...
Given a point set S={s_1,...s_n} in the unit square U=[0,1]^2, an anchored square packing is a set o...
Abstract. Given m unit disks and n points in the plane, the discrete unit disk cover problem is to s...
AbstractThis paper gives the first polynomial time approximation scheme for the connected vertex cov...
We consider the problem of placing a maximal number of disks in a rectangular region containing obst...
Given a set P of n points in the plane, we consider the problem of covering P with a minimum number ...
AbstractWe study the following problem: Given a set of red points and a set of blue points on the pl...
Open archive-ElsevierWe study the following problem: Given a set of red points and a set of blue poi...
We give an improved approximation algorithm for the unique unit-disk coverage problem: Given a set o...
AbstractIn this paper we study the following problem: Given sets R and B of r red and b blue points ...
Open archive-ElsevierIn this paper we study the following problem: Given sets R and B of r red and b...
Given a set D of n unit disks in the plane and an integer k <= n, the maximum area connected subset ...
We study an interesting geometric optimization problem. We are given a set of rectangles and a recta...
The following planar minimum disk cover problem is considered in this paper: given a set D of n disk...
Abstract. Given a set P of n points and a set D of m unit disks on a 2-dimensional plane, the discre...
No problema de cobertura mínima por conjuntos (MSC - Minimum Set Cover), são dados um conjunto L de ...
Given a point set S={s_1,...s_n} in the unit square U=[0,1]^2, an anchored square packing is a set o...
Abstract. Given m unit disks and n points in the plane, the discrete unit disk cover problem is to s...
AbstractThis paper gives the first polynomial time approximation scheme for the connected vertex cov...
We consider the problem of placing a maximal number of disks in a rectangular region containing obst...
Given a set P of n points in the plane, we consider the problem of covering P with a minimum number ...
AbstractWe study the following problem: Given a set of red points and a set of blue points on the pl...
Open archive-ElsevierWe study the following problem: Given a set of red points and a set of blue poi...
We give an improved approximation algorithm for the unique unit-disk coverage problem: Given a set o...
AbstractIn this paper we study the following problem: Given sets R and B of r red and b blue points ...
Open archive-ElsevierIn this paper we study the following problem: Given sets R and B of r red and b...
Given a set D of n unit disks in the plane and an integer k <= n, the maximum area connected subset ...
We study an interesting geometric optimization problem. We are given a set of rectangles and a recta...
The following planar minimum disk cover problem is considered in this paper: given a set D of n disk...
Abstract. Given a set P of n points and a set D of m unit disks on a 2-dimensional plane, the discre...
No problema de cobertura mínima por conjuntos (MSC - Minimum Set Cover), são dados um conjunto L de ...
Given a point set S={s_1,...s_n} in the unit square U=[0,1]^2, an anchored square packing is a set o...
Abstract. Given m unit disks and n points in the plane, the discrete unit disk cover problem is to s...
AbstractThis paper gives the first polynomial time approximation scheme for the connected vertex cov...