A Multiresolution Terrain Model for Efficient Visualization Query Processing

A Multiresolution Terrain Model for Efficient Visualization Query Processing

Multiresolution triangular mesh (MTM) models are widely used to improve the performance of large terrain visualization by replacing the original model with a simplified one. MTM models, which consist of both original and simplified data, are commonly stored in spatial database systems due to their s...

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Veröffentlicht in:IEEE transactions on knowledge and data engineering 2006-10, Vol.18 (10), p.1382-1396
Hauptverfasser: Xu, K., Zhou, X., Lin, X., Shen, H.T., Deng, K.
Format: Artikel
Sprache:eng
Schlagworte:
Applied sciences
Artificial intelligence
Computer science
control theory
systems
Data visualization
Database systems
Exact sciences and technology
Finite element method
Geographic Information Systems
Geology
Indexing
Information retrieval
Information systems. Data bases
Mathematical models
Memory organisation. Data processing
Multiresolution visualization
Pattern recognition. Digital image processing. Computational geometry
Performance enhancement
Query processing
Software
spatial database systems
Spatial resolution
Terrain
Virtual reality
Visualization
Volume measurement
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Zusammenfassung:Multiresolution triangular mesh (MTM) models are widely used to improve the performance of large terrain visualization by replacing the original model with a simplified one. MTM models, which consist of both original and simplified data, are commonly stored in spatial database systems due to their size. The relatively slow access speed of disks makes data retrieval the bottleneck of such terrain visualization systems. Existing spatial access methods proposed to address this problem rely on main-memory MTM models, which leads to significant overhead during query processing. In this paper, we approach the problem from a new perspective and propose a novel MTM called direct mesh that is designed specifically for secondary storage. It supports available indexing methods natively and requires no modification to MTM structure. Experiment results, which are based on two real-world data sets, show an average performance improvement of 5-10 times over the existing methods
ISSN:1041-4347
1558-2191
DOI:10.1109/TKDE.2006.151