HistSFC: Optimization for nD massive spatial points querying

Haicheng Liu; Peter van Oosterom; Martijn Meijers; Xuefeng Guan; Edward Verbree; Mike Horhammer

doi:10.5121/ijdms.2020.12302

HistSFC: Optimization for nD massive spatial points querying

Haicheng Liu, Peter van Oosterom, Martijn Meijers, Xuefeng Guan, Edward Verbree, Mike Horhammer

GIS Technologie

Research output: Contribution to journal › Article › Scientific

49 Downloads (Pure)

Abstract

Space Filling Curve (SFC) mapping-based clustering and indexing works effectively for point clouds management and querying. It maps both points and queries into a one-dimensional SFC space so that B+- tree could be utilized. Based on the basic structure, this paper develops a generic HistSFC approach which utilizes a histogram tree recording point distribution for efficient querying. The goal is to resolve the issue of skewed data querying. Besides, the paper proposes an agile method to compute a continuous Level of Detail (cLoD), and integrates it into HistSFC to support smooth rendering of massive points. Results indicate that for range queries, HistSFC decreases the False Positive Rate (FPR) of selection by maximally 80%, compared to previous approaches. It also performs significantly faster than the state-of- the-art Oracle SDO_PC solution. With improved performance on visualization and k Nearest Neighbour (kNN) search, HistSFC can therefore be used as a new standard solution.

Original language	English
Pages (from-to)	7-28
Number of pages	22
Journal	International Journal of Database Management Systems (IJDMS)
Volume	12
Issue number	3
DOIs	https://doi.org/10.5121/ijdms.2020.12302
Publication status	Published - 2020

Keywords

Point Clouds
Histogram
Space Filling Curve
Benchmark
nD

Access to Document

10.5121/ijdms.2020.12302

12320ijdms02-2Final published version, 1.25 MB

Cite this

@article{f82bb1a742914bb5bce3e919924d7aa4,

title = "HistSFC: Optimization for nD massive spatial points querying",

abstract = "Space Filling Curve (SFC) mapping-based clustering and indexing works effectively for point clouds management and querying. It maps both points and queries into a one-dimensional SFC space so that B+- tree could be utilized. Based on the basic structure, this paper develops a generic HistSFC approach which utilizes a histogram tree recording point distribution for efficient querying. The goal is to resolve the issue of skewed data querying. Besides, the paper proposes an agile method to compute a continuous Level of Detail (cLoD), and integrates it into HistSFC to support smooth rendering of massive points. Results indicate that for range queries, HistSFC decreases the False Positive Rate (FPR) of selection by maximally 80%, compared to previous approaches. It also performs significantly faster than the state-of- the-art Oracle SDO_PC solution. With improved performance on visualization and k Nearest Neighbour (kNN) search, HistSFC can therefore be used as a new standard solution. ",

keywords = "Point Clouds, Histogram, Space Filling Curve, Benchmark, nD",

author = "Haicheng Liu and Oosterom, {Peter van} and Martijn Meijers and Xuefeng Guan and Edward Verbree and Mike Horhammer",

year = "2020",

doi = "10.5121/ijdms.2020.12302",

language = "English",

volume = "12",

pages = "7--28",

journal = "International Journal of Database Management Systems (IJDMS)",

issn = "0975-5705",

publisher = "Academy and Industry Research Collaboration Center (AIRCC)",

number = "3",

}

TY - JOUR

T1 - HistSFC: Optimization for nD massive spatial points querying

AU - Liu, Haicheng

AU - Oosterom, Peter van

AU - Meijers, Martijn

AU - Guan, Xuefeng

AU - Verbree, Edward

AU - Horhammer, Mike

PY - 2020

Y1 - 2020

N2 - Space Filling Curve (SFC) mapping-based clustering and indexing works effectively for point clouds management and querying. It maps both points and queries into a one-dimensional SFC space so that B+- tree could be utilized. Based on the basic structure, this paper develops a generic HistSFC approach which utilizes a histogram tree recording point distribution for efficient querying. The goal is to resolve the issue of skewed data querying. Besides, the paper proposes an agile method to compute a continuous Level of Detail (cLoD), and integrates it into HistSFC to support smooth rendering of massive points. Results indicate that for range queries, HistSFC decreases the False Positive Rate (FPR) of selection by maximally 80%, compared to previous approaches. It also performs significantly faster than the state-of- the-art Oracle SDO_PC solution. With improved performance on visualization and k Nearest Neighbour (kNN) search, HistSFC can therefore be used as a new standard solution.

AB - Space Filling Curve (SFC) mapping-based clustering and indexing works effectively for point clouds management and querying. It maps both points and queries into a one-dimensional SFC space so that B+- tree could be utilized. Based on the basic structure, this paper develops a generic HistSFC approach which utilizes a histogram tree recording point distribution for efficient querying. The goal is to resolve the issue of skewed data querying. Besides, the paper proposes an agile method to compute a continuous Level of Detail (cLoD), and integrates it into HistSFC to support smooth rendering of massive points. Results indicate that for range queries, HistSFC decreases the False Positive Rate (FPR) of selection by maximally 80%, compared to previous approaches. It also performs significantly faster than the state-of- the-art Oracle SDO_PC solution. With improved performance on visualization and k Nearest Neighbour (kNN) search, HistSFC can therefore be used as a new standard solution.

KW - Point Clouds

KW - Histogram

KW - Space Filling Curve

KW - Benchmark

KW - nD

U2 - 10.5121/ijdms.2020.12302

DO - 10.5121/ijdms.2020.12302

M3 - Article

SN - 0975-5705

VL - 12

SP - 7

EP - 28

JO - International Journal of Database Management Systems (IJDMS)

JF - International Journal of Database Management Systems (IJDMS)

IS - 3

ER -

HistSFC: Optimization for nD massive spatial points querying

Abstract

Keywords

Access to Document

Fingerprint

Cite this