Proximity Queries on Terrain Surface

IF 2.2 2区 计算机科学 Q3 COMPUTER SCIENCE, INFORMATION SYSTEMS ACM Transactions on Database Systems Pub Date : 2022-09-16 DOI:10.1145/3563773
Victor Junqiu Wei, R. C. Wong, Cheng Long, D. Mount, H. Samet
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引用次数: 2

Abstract

Due to the advance of the geo-spatial positioning and the computer graphics technology, digital terrain data has become increasingly popular nowadays. Query processing on terrain data has attracted considerable attention from both the academic and the industry communities. Proximity queries such as the shortest path/distance query, k nearest/farthest neighbor query, and top-k closest/farthest pairs query are fundamental and important queries in the context of the terrain surfaces, and they have a lot of applications in Geographical Information System, 3D object feature vector construction, and 3D object data mining. In this article, we first study the most fundamental type of query, namely, shortest distance and path query, which is to find the shortest distance and path between two points of interest on the surface of the terrain. As observed by existing studies, computing the exact shortest distance/path is very expensive. Some existing studies proposed ϵ-approximate distance and path oracles, where ϵ is a non-negative real-valued error parameter. However, the best-known algorithm has a large oracle construction time, a large oracle size, and a large query time. Motivated by this, we propose a novel ϵ-approximate distance and path oracle called the Space Efficient distance and path oracle (SE), which has a small oracle construction time, a small oracle size, and a small distance and path query time, thanks to its compactness of storing concise information about pairwise distances between any two points-of-interest. Then, we propose several algorithms for the k nearest/farthest neighbor and top-k closest/farthest pairs queries with the assistance of our distance and path oracle SE. Our experimental results show that the oracle construction time, the oracle size, and the distance and path query time of SE are up to two, three, and five orders of magnitude faster than the best-known algorithm, respectively. Besides, our algorithms for other proximity queries including k nearest/farthest neighbor queries and top-k closest/farthest pairs queries significantly outperform the state-of-the-art algorithms by up to two orders of magnitude.
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地形表面邻近查询
由于地理空间定位和计算机图形学技术的进步,数字地形数据在当今日益流行。地形数据的查询处理已经引起了学术界和行业界的极大关注。最短路径/距离查询、k最近/最远邻居查询和top-k最近/最远距离对查询等邻近查询是地表环境中的基础查询和重要查询,在地理信息系统、三维对象特征向量构建和三维对象数据挖掘中有着广泛的应用。在本文中,我们首先研究了最基本的查询类型,即最短距离和路径查询,即找到地形表面上两个兴趣点之间的最短距离。正如现有研究所观察到的,计算精确的最短距离/路径是非常昂贵的。现有的一些研究提出了距离和路径的近似预言,其中,距离和路径是一个非负的实值误差参数。然而,最著名的算法具有较大的oracle构建时间、较大的oracle大小和较大的查询时间。受此启发,我们提出了一种新的距离和路径近似预言器,称为空间有效距离和路径预言器(SE),由于其存储任何两个兴趣点之间的成对距离的简明信息的紧凑性,它具有小的预言器构建时间、小的预言机大小以及小的距离和通路查询时间。然后,在距离和路径oracleSE的帮助下,我们提出了几种针对k个最近/最远邻居和top-k个最近-最远对查询的算法。我们的实验结果表明,SE的oracle构建时间、oracle大小以及距离和路径查询时间分别比最著名的算法快两个、三个和五个数量级。此外,我们针对其他邻近查询的算法,包括k个最近/最远邻居查询和前k个最接近/最远对查询,显著优于最先进的算法两个数量级。
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来源期刊
ACM Transactions on Database Systems
ACM Transactions on Database Systems 工程技术-计算机:软件工程
CiteScore
5.60
自引率
0.00%
发文量
15
审稿时长
>12 weeks
期刊介绍: Heavily used in both academic and corporate R&D settings, ACM Transactions on Database Systems (TODS) is a key publication for computer scientists working in data abstraction, data modeling, and designing data management systems. Topics include storage and retrieval, transaction management, distributed and federated databases, semantics of data, intelligent databases, and operations and algorithms relating to these areas. In this rapidly changing field, TODS provides insights into the thoughts of the best minds in database R&D.
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