AbstractWe design efficient data structures for dynamically maintaining a ham-sandwich cut of two point sets in the plane subject to insertions and deletions of points in either set. A ham-sandwich cut is a line that simultaneously bisects the cardinality of both point sets. For general point sets, our first data structure supports each operation in O(n1/3+ε) amortized time and O(n4/3+ε) space. Our second data structure performs faster when each point set decomposes into a small number k of subsets in convex position: it supports insertions and deletions in O(logn) time and ham-sandwich queries in O(klog4n) time. In addition, if each point set has convex peeling depth k, then we can maintain the decomposition automatically using O(klogn) ti...
?_d from each set. Steiger and Zhao [DCG 2010] proved a discrete analogue of this theorem, which we ...
Abstract. We give a data structure that allows arbitrary insertions and deletions on a planar point ...
Motivated by the desire to cope with data imprecision [31], we study methods for taking advantage of...
AbstractWe design efficient data structures for dynamically maintaining a ham-sandwich cut of two po...
We design efficient data structures for dynamically maintaining a ham-sandwich cut of two point sets...
Let B be a set of nb black points and W a set of nw, white points in the Euclidean plane. A line h i...
AbstractFor a number of common configurations of points (lines) in the plane, we develop data struct...
In this paper we determine the computational complexity of the dynamic convex hull problem in the pl...
ABSTRACT. Let P be a simple polygon with m vertices, k of which are reflex, and which contains r red...
The convex hull of a planer set of points can be defined as the set of vertices of the smallest conv...
Let P be a simple polygon with m vertices, k of which are reflex, and which contains r red points an...
We give a data structure that allows arbitrary insertions and deletions on a planar point set P and ...
We present algorithms for maintaining data structures supporting fast (polylogarithmic) point-locati...
We analyze the complexity of the analytic center cutting plane or column generation algorithm for so...
Many interesting problems in Discrete and Computational Geometry involve partitioning. A main questi...
?_d from each set. Steiger and Zhao [DCG 2010] proved a discrete analogue of this theorem, which we ...
Abstract. We give a data structure that allows arbitrary insertions and deletions on a planar point ...
Motivated by the desire to cope with data imprecision [31], we study methods for taking advantage of...
AbstractWe design efficient data structures for dynamically maintaining a ham-sandwich cut of two po...
We design efficient data structures for dynamically maintaining a ham-sandwich cut of two point sets...
Let B be a set of nb black points and W a set of nw, white points in the Euclidean plane. A line h i...
AbstractFor a number of common configurations of points (lines) in the plane, we develop data struct...
In this paper we determine the computational complexity of the dynamic convex hull problem in the pl...
ABSTRACT. Let P be a simple polygon with m vertices, k of which are reflex, and which contains r red...
The convex hull of a planer set of points can be defined as the set of vertices of the smallest conv...
Let P be a simple polygon with m vertices, k of which are reflex, and which contains r red points an...
We give a data structure that allows arbitrary insertions and deletions on a planar point set P and ...
We present algorithms for maintaining data structures supporting fast (polylogarithmic) point-locati...
We analyze the complexity of the analytic center cutting plane or column generation algorithm for so...
Many interesting problems in Discrete and Computational Geometry involve partitioning. A main questi...
?_d from each set. Steiger and Zhao [DCG 2010] proved a discrete analogue of this theorem, which we ...
Abstract. We give a data structure that allows arbitrary insertions and deletions on a planar point ...
Motivated by the desire to cope with data imprecision [31], we study methods for taking advantage of...