Geometric Minimum Spanning Trees via Well-Separated Pair Decompositions

Giri Narasimhan; Martin Zachariasen

Geometric Minimum Spanning Trees via Well-Separated Pair Decompositions

Giri Narasimhan, Martin Zachariasen

Publikation: Artikel i tidsskrift og konference artikel i tidsskrift › Tidsskriftartikel › Forskning › peer review

Abstract

Let S be a set of n points in ℜd. We present an algorithm that uses the well-separated pair decomposition and computes the minimum spanning tree of S under any Lp or polyhedral metric. A theoretical analysis shows that it has an expected running time of O(n log n) for uniform point distributions; this is verified experimentally. Extensive experimental results show that this approach is practical. Under a variety of input distributions, the resulting implementation is robust and performs well for points in higher dimensional space.

Originalsprog	Engelsk
Tidsskrift	ACM Journal of Experimental Algorithmics
ISSN	1084-6654
Status	Udgivet - 2001
Udgivet eksternt	Ja

Emneord

Minimum Spanning Tree (MST)
Well-Separated Pair Decomposition (WSPD)
L^p Metrics
Polyhedral Metrics
Algorithm Analysis

Citationsformater

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abstract = "Let S be a set of n points in ℜd. We present an algorithm that uses the well-separated pair decomposition and computes the minimum spanning tree of S under any Lp or polyhedral metric. A theoretical analysis shows that it has an expected running time of O(n log n) for uniform point distributions; this is verified experimentally. Extensive experimental results show that this approach is practical. Under a variety of input distributions, the resulting implementation is robust and performs well for points in higher dimensional space.",

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author = "Giri Narasimhan and Martin Zachariasen",

year = "2001",

language = "English",

journal = "ACM Journal of Experimental Algorithmics",

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TY - JOUR

T1 - Geometric Minimum Spanning Trees via Well-Separated Pair Decompositions

AU - Narasimhan, Giri

AU - Zachariasen, Martin

PY - 2001

Y1 - 2001

N2 - Let S be a set of n points in ℜd. We present an algorithm that uses the well-separated pair decomposition and computes the minimum spanning tree of S under any Lp or polyhedral metric. A theoretical analysis shows that it has an expected running time of O(n log n) for uniform point distributions; this is verified experimentally. Extensive experimental results show that this approach is practical. Under a variety of input distributions, the resulting implementation is robust and performs well for points in higher dimensional space.

AB - Let S be a set of n points in ℜd. We present an algorithm that uses the well-separated pair decomposition and computes the minimum spanning tree of S under any Lp or polyhedral metric. A theoretical analysis shows that it has an expected running time of O(n log n) for uniform point distributions; this is verified experimentally. Extensive experimental results show that this approach is practical. Under a variety of input distributions, the resulting implementation is robust and performs well for points in higher dimensional space.

KW - Minimum Spanning Tree (MST)

KW - Well-Separated Pair Decomposition (WSPD)

KW - L^p Metrics

KW - Polyhedral Metrics

KW - Algorithm Analysis

KW - Minimum Spanning Tree (MST)

KW - Well-Separated Pair Decomposition (WSPD)

KW - L^p Metrics

KW - Polyhedral Metrics

KW - Algorithm Analysis

M3 - Journal article

SN - 1084-6654

JO - ACM Journal of Experimental Algorithmics

JF - ACM Journal of Experimental Algorithmics

ER -

Geometric Minimum Spanning Trees via Well-Separated Pair Decompositions

Abstract

Emneord

Fingeraftryk

Citationsformater