This paper describes novel and fast, simple and robust algorithm with O(N) expected complexity which enables to decrease run-time needed to find an exact maximum distance of two points in E2. The proposed algorithm has been evaluated experimentally on larger different datasets. The proposed algorithm gives a significant speed-up to applications, when medium and large data sets are processed. It is over 10 000 times faster than the standard algorithm for 106 points randomly distributed points in E2. Experiments proved the advantages of the proposed algorithm over the standard algorithm and convex hull diameters approaches
"July 1987."Bibliography: p. 34-36.Supported, in part, by the Presidential Young Investigator Grant ...
AbstractWe consider the problem of computing the diameter of a set of n points in d-dimensional Eucl...
The Fr\'echet distance provides a natural and intuitive measure for the popular task of computing th...
This paper describes novel and fast, simple and robust algorithm with O(N) expected complexity which...
Abstract. This paper describes novel and fast, simple and robust algorithm with O(N) expected comple...
Abstract. Finding an exact maximum distance of two points in the given set is a fundamental computat...
Given a set of points P = {p 1 , p 2 ,..., p n } in three dimensions, the width of P, W(P), is...
AbstractLet S be a family of n points in Ed. The exact fitting problem is that of finding a hyperpla...
We consider the problem of computing the diameter of a set of $n$ points in $d$-dimensional Euclidea...
In this paper, algorithms have been developed that are capable of efficiently pre-processing massive...
To solve the problems of the existing point-to-triangle-mesh distance computation algorithm which ru...
AbstractWe present a randomized algorithm of expected time complexity O(m23n23log43m + m log2m + n l...
Let S and T be two finite sets of points on the real line with |S| + |T| = n and |S| > |T|. We c...
AbstractIn this paper, we introduce a new generalization of the well-known Fréchet distance between ...
© Copyright 2018 by SIAM. Point location problems for n points in d-dimensional Euclidean space (and...
"July 1987."Bibliography: p. 34-36.Supported, in part, by the Presidential Young Investigator Grant ...
AbstractWe consider the problem of computing the diameter of a set of n points in d-dimensional Eucl...
The Fr\'echet distance provides a natural and intuitive measure for the popular task of computing th...
This paper describes novel and fast, simple and robust algorithm with O(N) expected complexity which...
Abstract. This paper describes novel and fast, simple and robust algorithm with O(N) expected comple...
Abstract. Finding an exact maximum distance of two points in the given set is a fundamental computat...
Given a set of points P = {p 1 , p 2 ,..., p n } in three dimensions, the width of P, W(P), is...
AbstractLet S be a family of n points in Ed. The exact fitting problem is that of finding a hyperpla...
We consider the problem of computing the diameter of a set of $n$ points in $d$-dimensional Euclidea...
In this paper, algorithms have been developed that are capable of efficiently pre-processing massive...
To solve the problems of the existing point-to-triangle-mesh distance computation algorithm which ru...
AbstractWe present a randomized algorithm of expected time complexity O(m23n23log43m + m log2m + n l...
Let S and T be two finite sets of points on the real line with |S| + |T| = n and |S| > |T|. We c...
AbstractIn this paper, we introduce a new generalization of the well-known Fréchet distance between ...
© Copyright 2018 by SIAM. Point location problems for n points in d-dimensional Euclidean space (and...
"July 1987."Bibliography: p. 34-36.Supported, in part, by the Presidential Young Investigator Grant ...
AbstractWe consider the problem of computing the diameter of a set of n points in d-dimensional Eucl...
The Fr\'echet distance provides a natural and intuitive measure for the popular task of computing th...