DCPMS: A Large-Scale Raster Layer Serving Method for Custom Online Calculation and Rendering

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-08-01 DOI:10.3390/ijgi13080276
Anbang Yang, Feng Zhang, Jie Feng, Luoqi Wang, Enjiang Yue, Xinhua Fan, Jingyi Zhang, Linshu Hu, Sensen Wu
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引用次数: 0

Abstract

Raster data represent one of the fundamental data formats utilized in GIS. As the technology used to observe the Earth continues to evolve, the spatial and temporal resolution of raster data is becoming increasingly refined, while the data scale is expanding. One of the key issues in the development of GIS technology is to determine how to make large-scale raster data better to provide computation, visualization, and analysis services in the Internet environment. This paper proposes a decentralized COG-pyramid-based map service method (DCPMS). In comparison to traditional raster data online service technology, such as GIS servers and static tiles, DCPMS employs virtual mapping to reduce data storage costs and combines tile technology with a cloud-native storage scheme to enhance the concurrency of supportable requests. Furthermore, the band calculation process is shifted to the client, thereby effectively resolving the issue of efficient customized band calculation and data rendering in the context of a large-scale raster data online service. The results indicate DCPMS delivers commendable performance. Its decentralized architecture significantly enhances performance in high concurrency scenarios. With a thousand concurrent requests, the response time of DCPMS is reduced by 74% compared to the GIS server. Moreover, this service exhibits considerable strengths in data preprocessing and storage, suggesting a novel pathway for future technical improvement of large-scale raster data map services.
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DCPMS:用于自定义在线计算和渲染的大规模栅格图层服务方法
栅格数据是 GIS 中使用的基本数据格式之一。随着用于观测地球的技术不断发展,栅格数据的空间和时间分辨率越来越精细,同时数据规模也在不断扩大。如何使大规模栅格数据更好地在互联网环境中提供计算、可视化和分析服务,是 GIS 技术发展的关键问题之一。本文提出了一种基于分布式 COG-金字塔的地图服务方法(DCPMS)。与传统的栅格数据在线服务技术(如 GIS 服务器和静态瓦片)相比,DCPMS 采用虚拟映射技术降低数据存储成本,并将瓦片技术与云原生存储方案相结合,提高了可支持请求的并发性。此外,将波段计算过程转移到客户端,从而有效解决了大规模栅格数据在线服务中高效定制波段计算和数据渲染的问题。结果表明,DCPMS 的性能值得称赞。其分散式架构大大提高了高并发情况下的性能。在有一千个并发请求的情况下,DCPMS 的响应时间比 GIS 服务器缩短了 74%。此外,该服务在数据预处理和存储方面表现出了相当大的优势,为未来大规模光栅数据地图服务的技术改进提供了一条新的途径。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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