Dynamic Smooth Compressed Quadtrees.

Ivor van der Hoog; Elena Khramtcova; Maarten Löffler

doi:10.4230/LIPIcs.SoCG.2018.45

Dynamic Smooth Compressed Quadtrees.

Ivor van der Hoog
, Elena Khramtcova
, Maarten Löffler

Research output: Conference Article in Proceeding or Book/Report chapter › Article in proceedings › Research › peer-review

Abstract

We introduce dynamic smooth (a.k.a. balanced) compressed quadtrees with worst-case constant time updates in constant dimensions. We distinguish two versions of the problem. First, we show that quadtrees as a space-division data structure can be made smooth and dynamic subject to split and merge operations on the quadtree cells. Second, we show that quadtrees used to store a set of points in Rd can be made smooth and dynamic subject to insertions and deletions of points. The second version uses the first but must additionally deal with compression and alignment of quadtree components. In both cases our updates take 2O(dlogd) time, except for the point location part in the second version which has a lower bound of Ω(logn); but if a pointer (finger) to the correct quadtree cell is given, the rest of the updates take worst-case constant time. Our result implies that several classic and recent results (ranging from ray tracing to planar point location) in computational geometry which use quadtrees can deal with arbitrary point sets on a real RAM pointer machine.

Original language	English
Title of host publication	34th International Symposium on Computational Geometry (SoCG 2018)
Number of pages	15
Publisher	Schloss Dagstuhl - Leibniz-Zentrum fuer Informatik GmbH
Publication date	2018
Pages	1-15
ISBN (Print)	978-3-95977-066-8
DOIs	https://doi.org/10.4230/LIPIcs.SoCG.2018.45
Publication status	Published - 2018
Externally published	Yes

Series	Leibniz International Proceedings in Informatics
Volume	99
ISSN	1868-8969

Keywords

smooth
dynamic
data structure
quadtree
Real RAM
compression
alignment

Access to Document

10.4230/LIPIcs.SoCG.2018.45Licence: CC BY

Cite this

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title = "Dynamic Smooth Compressed Quadtrees.",

abstract = "We introduce dynamic smooth (a.k.a. balanced) compressed quadtrees with worst-case constant time updates in constant dimensions. We distinguish two versions of the problem. First, we show that quadtrees as a space-division data structure can be made smooth and dynamic subject to split and merge operations on the quadtree cells. Second, we show that quadtrees used to store a set of points in Rd can be made smooth and dynamic subject to insertions and deletions of points. The second version uses the first but must additionally deal with compression and alignment of quadtree components. In both cases our updates take 2O(dlogd) time, except for the point location part in the second version which has a lower bound of Ω(logn); but if a pointer (finger) to the correct quadtree cell is given, the rest of the updates take worst-case constant time. Our result implies that several classic and recent results (ranging from ray tracing to planar point location) in computational geometry which use quadtrees can deal with arbitrary point sets on a real RAM pointer machine.",

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author = "\{van der Hoog\}, Ivor and Elena Khramtcova and Maarten L{\"o}ffler",

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Dynamic Smooth Compressed Quadtrees. / van der Hoog, Ivor; Khramtcova, Elena; Löffler, Maarten.
34th International Symposium on Computational Geometry (SoCG 2018). Schloss Dagstuhl - Leibniz-Zentrum fuer Informatik GmbH, 2018. p. 1-15 (Leibniz International Proceedings in Informatics, Vol. 99).

Research output: Conference Article in Proceeding or Book/Report chapter › Article in proceedings › Research › peer-review

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AU - van der Hoog, Ivor

AU - Khramtcova, Elena

AU - Löffler, Maarten

N1 - DBLP License: DBLP's bibliographic metadata records provided through http://dblp.org/ are distributed under a Creative Commons CC0 1.0 Universal Public Domain Dedication. Although the bibliographic metadata records are provided consistent with CC0 1.0 Dedication, the content described by the metadata records is not. Content may be subject to copyright, rights of privacy, rights of publicity and other restrictions.

PY - 2018

Y1 - 2018

N2 - We introduce dynamic smooth (a.k.a. balanced) compressed quadtrees with worst-case constant time updates in constant dimensions. We distinguish two versions of the problem. First, we show that quadtrees as a space-division data structure can be made smooth and dynamic subject to split and merge operations on the quadtree cells. Second, we show that quadtrees used to store a set of points in Rd can be made smooth and dynamic subject to insertions and deletions of points. The second version uses the first but must additionally deal with compression and alignment of quadtree components. In both cases our updates take 2O(dlogd) time, except for the point location part in the second version which has a lower bound of Ω(logn); but if a pointer (finger) to the correct quadtree cell is given, the rest of the updates take worst-case constant time. Our result implies that several classic and recent results (ranging from ray tracing to planar point location) in computational geometry which use quadtrees can deal with arbitrary point sets on a real RAM pointer machine.

AB - We introduce dynamic smooth (a.k.a. balanced) compressed quadtrees with worst-case constant time updates in constant dimensions. We distinguish two versions of the problem. First, we show that quadtrees as a space-division data structure can be made smooth and dynamic subject to split and merge operations on the quadtree cells. Second, we show that quadtrees used to store a set of points in Rd can be made smooth and dynamic subject to insertions and deletions of points. The second version uses the first but must additionally deal with compression and alignment of quadtree components. In both cases our updates take 2O(dlogd) time, except for the point location part in the second version which has a lower bound of Ω(logn); but if a pointer (finger) to the correct quadtree cell is given, the rest of the updates take worst-case constant time. Our result implies that several classic and recent results (ranging from ray tracing to planar point location) in computational geometry which use quadtrees can deal with arbitrary point sets on a real RAM pointer machine.

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BT - 34th International Symposium on Computational Geometry (SoCG 2018)

PB - Schloss Dagstuhl - Leibniz-Zentrum fuer Informatik GmbH

ER -

Dynamic Smooth Compressed Quadtrees.

Abstract

Keywords

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