1. Approach to Accelerating Dissolved Vector Buffer Generation in Distributed In-Memory Cluster Architecture.
- Author
-
Shen, Jinxin, Chen, Luo, Wu, Ye, and Jing, Ning
- Subjects
- *
GEOGRAPHIC information systems , *COMPUTER workstation clusters , *HILBERT space - Abstract
The buffer generation algorithm is a fundamental function in GIS, identifying areas of a given distance surrounding geographic features. Past research largely focused on buffer generation algorithms generated in a stand-alone environment. Moreover, dissolved buffer generation is dataand computing-intensive. In this scenario, the improvement in the stand-alone environment is limited when considering large-scale mass vector data. Nevertheless, recent parallel dissolved vector buffer algorithms suffer from scalability problems, leaving room for further optimization. At present, the prevailing in-memory cluster-computing framework--Spark--provides promising efficiency for computing-intensive analysis; however, it has seldom been researched for buffer analysis. On this basis, we propose a cluster-computing-oriented parallel dissolved vector buffer generating algorithm, called the HPBM, that contains a Hilbert-space-filling-curve-based data partition method, a data skew and cross-boundary objects processing strategy, and a depth-given tree-like merging method. Experiments are conducted in both stand-alone and cluster environments using real-world vector data that include points and roads. Compared with some existing parallel buffer algorithms, as well as various popular GIS software, the HPBM achieves a performance gain of more than 50%. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF