Add to ORKGConsider a polyhedral surface consisting of n triangular faces where each face has an associated positive weight. The cost of travel through each face is the Euclidean distance traveled multiplied by the weight of the face. We present an approximation algorithm for computing a path such that the ratio of the cost of the computed path with respect to the cost of a shortest path is bounded by (1 + ε), for a given 0 < ε < 1. The algorithm is based on a novel way of discretizing the polyhedral surface. We employ a generic greedy approach for solving shortest path problems in geometric graphs produced by such discretization. We improve upon existing approximation algorithms for computing shortest paths on polyhedral surfaces [1,4,5,10,12,15]
We develop algorithms to compute edge sequences, Voronoi diagrams, shortest path maps, the Fréchet d...
We develop algorithms to compute edge sequences, Voronoi diagrams, shortest path maps, the Fr´echet ...
We present an approximation algorithm that, given a simple, possibly nonconvex polyhedron P with n v...
We consider the classical geometric problem of determining a shortest path through a weighted domain...
Consider a simple polyhedron P, possibly non-convex, composed of n triangular regions (faces), each ...
Consider a simple polyhedron P, possibly non-convex, composed of n triangular regions (faces), in wh...
The problem of computing a shortest cost path between two points on a polyhedral surface is presente...
One common problem in computational geometry is that of computing shortest paths between two points ...
Several algorithms are presented to compute the shortest cost path between two points, s and t, on a...
sack @ scs.carleton.ca We consider the classical geometric problem of determining a shortest path th...
We consider the classical geometric problem of determining shortest paths between pairs of points ly...
We consider geometric shortest path queries between arbitrary pairs of objects on a connected polyhe...
We consider the well-known geometric problem of determining shortest paths between pairs of points o...
In this article, we present an approximation algorithm for solving the single source shortest paths ...
Shortest path problems are among the... In this paper we propose several simple and practical algori...
We develop algorithms to compute edge sequences, Voronoi diagrams, shortest path maps, the Fréchet d...
We develop algorithms to compute edge sequences, Voronoi diagrams, shortest path maps, the Fr´echet ...
We present an approximation algorithm that, given a simple, possibly nonconvex polyhedron P with n v...
We consider the classical geometric problem of determining a shortest path through a weighted domain...
Consider a simple polyhedron P, possibly non-convex, composed of n triangular regions (faces), each ...
Consider a simple polyhedron P, possibly non-convex, composed of n triangular regions (faces), in wh...
The problem of computing a shortest cost path between two points on a polyhedral surface is presente...
One common problem in computational geometry is that of computing shortest paths between two points ...
Several algorithms are presented to compute the shortest cost path between two points, s and t, on a...
sack @ scs.carleton.ca We consider the classical geometric problem of determining a shortest path th...
We consider the classical geometric problem of determining shortest paths between pairs of points ly...
We consider geometric shortest path queries between arbitrary pairs of objects on a connected polyhe...
We consider the well-known geometric problem of determining shortest paths between pairs of points o...
In this article, we present an approximation algorithm for solving the single source shortest paths ...
Shortest path problems are among the... In this paper we propose several simple and practical algori...
We develop algorithms to compute edge sequences, Voronoi diagrams, shortest path maps, the Fréchet d...
We develop algorithms to compute edge sequences, Voronoi diagrams, shortest path maps, the Fr´echet ...
We present an approximation algorithm that, given a simple, possibly nonconvex polyhedron P with n v...