基于贝叶斯网络的多源地理空间数据植被检测整理——以黄河三角洲为例

IF 1.4 Q4 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS International Journal of Computational Science and Engineering Pub Date : 2017-10-16 DOI:10.1504/IJCSE.2017.087407
Dingyuan Mo, Liangju Yu, Meng Gao
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引用次数: 0

摘要

多源地理空间数据包含大量可用于环境评价和管理的信息。本文从多源地理空间数据中提取了代表黄河三角洲典型人类活动的4个环境指标。通过分析这些人性化指标与NDVI之间的因果关系,建立了贝叶斯网络(BN)模型。利用GIS预处理的栅格数据一部分用于训练BN模型,另一部分用于模型测试。敏感性分析和性能评价表明,BN模型能够较好地揭示人类活动对陆地植被的影响。利用训练好的BN模型,对三种不同情景下的植被变化进行了预测。结果表明,利用GIS-BN框架进行植被检测可以成功地对多源地理空间数据进行整理。
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Collating multisource geospatial data for vegetation detection using Bayesian network-a case study of Yellow River Delta
Multisource geospatial data contains a lot of information that can be used for environment assessment and management. In this paper, four environmental indicators representing typical human activities in Yellow River Delta, China are extracted from multisource geospatial data. By analysing the causal relationship between these human-related indicators and NDVI, a Bayesian network (BN) model is developed. Part of the raster data pre-processed using GIS is used for training the BN model, and the other data is used for model testing. Sensitivity analysis and performance assessment showed that the BN model was good enough to reveal the impacts of human activities on land vegetation. With the trained BN model, the vegetation change under three different scenarios was also predicted. The results showed that multisource geospatial data could be successfully collated using the GIS-BN framework for vegetation detection.
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来源期刊
International Journal of Computational Science and Engineering
International Journal of Computational Science and Engineering COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS-
CiteScore
4.00
自引率
40.00%
发文量
73
期刊介绍: Computational science and engineering is an emerging and promising discipline in shaping future research and development activities in both academia and industry, in fields ranging from engineering, science, finance, and economics, to arts and humanities. New challenges arise in the modelling of complex systems, sophisticated algorithms, advanced scientific and engineering computing and associated (multidisciplinary) problem-solving environments. Because the solution of large and complex problems must cope with tight timing schedules, powerful algorithms and computational techniques, are inevitable. IJCSE addresses the state of the art of all aspects of computational science and engineering with emphasis on computational methods and techniques for science and engineering applications.
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