Over the last decade, there have been several data structures that, given a planar subdivision and a probability distribution over the plane, provide a way for answering point location queries that is fine-tuned for the distribution. All these methods suffer from the requirement that the query distribution must be known in advance. We present a new data structure for point location queries in planar triangulations. Our structure is asymptotically as fast as the optimal structures, but it requires no prior information about the queries. This is a 2-D analogue of the jump from Knuth's optimum binary search trees (discovered in 1971) to the splay trees of Sleator and Tarjan in 1985. While the former need to know the query distribution, the lat...
Planar point location is among the most fundamental search problems in computational geometry. Altho...
We design, analyze, implement, and evaluate a distribution-sensitive point location algorithm based ...
International audienceWe analyze, implement, and evaluate a distribution- sensitive point location a...
Over the last decade, there have been several data structures that, given a planar subdivision and a...
AbstractGiven a fixed distribution of point location queries among the triangles in a triangulation ...
We present a self-adjusting point location structure for convex subdivisions. Let n be the number of...
A data structure is presented for point location in connected planar subdivisions when the distribut...
Given a planar polygonal subdivision S, point location involves preprocessing this subdivision into ...
We consider the planar point location problem from the perspective of expected search time. We are g...
Abstract. Let G be a (possibly disconnected) planar subdivision and let D be a probabil-ity measure ...
AbstractGiven a planar polygonal subdivision S, the point location problem is to preprocess S into a...
We propose to design data structures called succinct geometric indexes of negligible space (more pre...
We propose designing data structures called succinct geometric indexes of negligible space (more pre...
Point location is the problem of preprocessing a planar polygonal subdivision S of size n into a dat...
In this paper we describe a fully-dynamic data structure that supports point location queries in a c...
Planar point location is among the most fundamental search problems in computational geometry. Altho...
We design, analyze, implement, and evaluate a distribution-sensitive point location algorithm based ...
International audienceWe analyze, implement, and evaluate a distribution- sensitive point location a...
Over the last decade, there have been several data structures that, given a planar subdivision and a...
AbstractGiven a fixed distribution of point location queries among the triangles in a triangulation ...
We present a self-adjusting point location structure for convex subdivisions. Let n be the number of...
A data structure is presented for point location in connected planar subdivisions when the distribut...
Given a planar polygonal subdivision S, point location involves preprocessing this subdivision into ...
We consider the planar point location problem from the perspective of expected search time. We are g...
Abstract. Let G be a (possibly disconnected) planar subdivision and let D be a probabil-ity measure ...
AbstractGiven a planar polygonal subdivision S, the point location problem is to preprocess S into a...
We propose to design data structures called succinct geometric indexes of negligible space (more pre...
We propose designing data structures called succinct geometric indexes of negligible space (more pre...
Point location is the problem of preprocessing a planar polygonal subdivision S of size n into a dat...
In this paper we describe a fully-dynamic data structure that supports point location queries in a c...
Planar point location is among the most fundamental search problems in computational geometry. Altho...
We design, analyze, implement, and evaluate a distribution-sensitive point location algorithm based ...
International audienceWe analyze, implement, and evaluate a distribution- sensitive point location a...