High performance location-based services in a main-memory database
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- 作者:Suprio Ray ; Rolando Blanco ; Anil K. Goel
- 关键词:Location ; based services ; LBS ; Main ; memory database ; Spatio ; temporal index
- 刊名:GeoInformatica
- 出版年:2017
- 出版时间:April 2017
- 年:2017
- 卷:21
- 期:2
- 页码:293-322
- 全文大小:
- 刊物类别:Earth and Environmental Science
- 刊物主题:Geographical Information Systems/Cartography; Data Structures, Cryptology and Information Theory; Computer Science, general; Information Storage and Retrieval; Multimedia Information Systems;
- 出版者:Springer US
- ISSN:1573-7624
- 卷排序:21
文摘
With the widespread adoption of mobile devices and explosive growth of spatio-temporal data, Location-Based Services (LBS) have become an indispensable technology in our daily lives. The key characteristics of the LBS applications include a high rate of time-stamped location updates, and many concurrent historical, present and predictive queries. The commercial providers of LBS must support all three kinds of queries and address the high update rates. While they employ relational databases for this purpose, traditional databases are unable to cope with the growing demands of many LBS systems. Support for spatio-temporal indexes within these databases are limited to R-tree based approaches. Although a number of advanced spatiotemporal indexes have been proposed by the research community, only a few of them support historical queries. These indexing techniques, with support for historical queries, are unable to sustain high update and query throughput typical in LBS. Technological trends involving increasingly large main memory and growing processing core count offer opportunities to address some of these issues. We present several key ideas to support high performance commercial LBS by exploiting in-memory database techniques. Taking advantage of very large memory available in modern machines, our system maintains the location data and index for the past N days in memory. Older data and index are kept in disk. We propose an in-memory storage organization for high insert performance. We also introduce a novel spatio-temporal index that maintains partial temporal indexes in a versioned grid structure. The partial temporal indexes are organized as compressed bitmaps. With extensive evaluation, we demonstrate that our system supports high insert and query throughputs and it outperforms the leading LBS system by a significant margin.