Add to ORKGWe present an engineered version of the divide-and-conquer algorithm for finding the clos-est pair of points, within a given set of points in the XY-plane. In this version of the algorithm, only two pairwise comparisons are required in the combine step, for each point that lies in the 2δ-wide vertical slab. The correctness of the algorithm is shown for all Minkowski distances with p> 1. We also show empirically that, although the time complexity of the algorithm is still O(n lg n), the reduction in the total number of comparisons leads to a significant reduction in the total execution time, for inputs with size sufficiently large.
This is the preliminary version of a chapter that will appear in the Handbook on Computational Geome...
AbstractIn the k-dimensional rectangular point location problem, we have to store a set of n non-ove...
Given a set S of n points in IR D , D 2. Each point p 2 S is assigned a color c(p) chosen from a ...
28th International Symposium on Computer and Information Sciences (ISCIS) -- OCT 28-29, 2013 -- Inst...
One of the most challenging problems in computational geometry is closest pair of points given n poi...
Given a set of geometric objects a closest pair is a pair of objects whose mutual distance is smalle...
Given a set S of n points in k-dimensional space, and an L t metric, the dynamic closest pair proble...
We present an approach to simulate divide-and-conquer algorithms in a space-efficient way, and illus...
We present an approach to simulate divide-and-conquer algorithms in a space-efficient way, and illus...
We present a conceptually simple, randomized incremental algorithm for finding the closest pair in a...
In the otf-line version of the problem, the complete set of points is known at the start of the algo...
Given nonintersecting simple polygons P and Q, two vertices p 2 P and q 2 Q are said to be visible i...
We develop a number of space-efficient tools including an approach to simulate divide-and-conquer sp...
AbstractWe develop a number of space-efficient tools including an approach to simulate divide-and-co...
Consider a metric space (P, dist) with N points whose doubling dimension is a constant. We present a...
This is the preliminary version of a chapter that will appear in the Handbook on Computational Geome...
AbstractIn the k-dimensional rectangular point location problem, we have to store a set of n non-ove...
Given a set S of n points in IR D , D 2. Each point p 2 S is assigned a color c(p) chosen from a ...
28th International Symposium on Computer and Information Sciences (ISCIS) -- OCT 28-29, 2013 -- Inst...
One of the most challenging problems in computational geometry is closest pair of points given n poi...
Given a set of geometric objects a closest pair is a pair of objects whose mutual distance is smalle...
Given a set S of n points in k-dimensional space, and an L t metric, the dynamic closest pair proble...
We present an approach to simulate divide-and-conquer algorithms in a space-efficient way, and illus...
We present an approach to simulate divide-and-conquer algorithms in a space-efficient way, and illus...
We present a conceptually simple, randomized incremental algorithm for finding the closest pair in a...
In the otf-line version of the problem, the complete set of points is known at the start of the algo...
Given nonintersecting simple polygons P and Q, two vertices p 2 P and q 2 Q are said to be visible i...
We develop a number of space-efficient tools including an approach to simulate divide-and-conquer sp...
AbstractWe develop a number of space-efficient tools including an approach to simulate divide-and-co...
Consider a metric space (P, dist) with N points whose doubling dimension is a constant. We present a...
This is the preliminary version of a chapter that will appear in the Handbook on Computational Geome...
AbstractIn the k-dimensional rectangular point location problem, we have to store a set of n non-ove...
Given a set S of n points in IR D , D 2. Each point p 2 S is assigned a color c(p) chosen from a ...