Prototyping a Geological Processing Service System Using Message Scheduling

<p>Xueli Zhang<sup>1</sup>, Na Ma<sup>1</sup>, Yan Yang<sup>2</sup>, Guo Liu<sup>3</sup>, Zhihui Wang<sup>1</sup></p>

doi:10.25236/IJNDES.18205

International Journal of New Developments in Engineering and Society, 2018, 2(2); doi: 10.25236/IJNDES.18205.

Prototyping a Geological Processing Service System Using Message Scheduling

Author(s)

Xueli Zhang¹, Na Ma¹, Yan Yang², Guo Liu³, Zhihui Wang¹

Corresponding Author:

Guo Liu

Affiliation(s)

1. East China Mineral Exploration And Development Bureau, Nanjing 210007, China
2. Development Research Center Of China Geological Survey ,Beijing 100037,China
3. National Geological Library Of China, Beijing 100083, China

Download PDF
|
Download: 39
|
View: 1598

Abstract

As the high-speed and parallel processing features on FPGA, so it is widely used in high-speed information processing system. In this paper, the front-end data of X - ray energy spectrum is taken as processing object, high-speed data acquisition and processing methods based on the FPGA are proposed, which embodies the advantages of FPGA in the application of high speed information processing. The compensation measures in the electronic measurement system are also discussed in this paper.

Keywords

FPGA; High-speed Information Processing; X-ray energy spectrum; Electronic measurement system; Compensation measures

Cite This Paper

Xueli Zhang, Na Ma, Yan Yang, Guo Liu, Zhihui Wang. Prototyping a Geological Processing Service System Using Message Scheduling. International Journal of New Developments in Engineering and Society (2018) Vol. 2: 14-18.

References

[1] Carlos G, Laura D, Michael G,et al. Service-oriented applications for environmental models: Reusable geospatial services [J]. Environmental Modelling&Software, 2010(25):182-198.
[2] Benjamin D. B, Patrick N. H, Ei Fujioka,et al. Geospatial web services within a scientific workflow: Predicting marine mammal habitats in a dynamic environment [J]. Ecological Informatics, 2007(2):210-223.

[3] Feng M,Liu SG, Euliss Jr,et al. Prototyping an online wetland ecosystem services model using open model sharing standards[J]. Environmental Modelling&Software, 2011(26):458-468.
[4] Fitch P,Bai Q F, A standards based web service interface for hydrological models[c].18th World IMACS/MODSIM Congress, Cairns, Australia 13-17 July,2009.
[5] Tan Y. Research on the general framework of the construction of geological big data system [J]. Geographic information world ,China,2016(23):1-9.
[6] Jiang Z,Ma Z,Yang D,et al. Research on the framework of geological information service system [J].China Geology,China,2007(34):173-178.
[7] Liu R,Yan G,Xia L,et al. Development trend of geoscience information technology from the thirty-fourth International Geological Congress[J]. Geological Bulletin, China, 2013(32): 685-692.

[8] Hu L,Le P,GongJ,etal.Research on asynchronous geographic information network processing service method [J]. Journal of Wuhan University Information Science, China 2016(41):479-485.
[9] Wang J,You S,Xie,et al.Architecture design of geoscience data sharing service platform for Web [J]. Journal of Earth Information Science, China,2014(4):62-65.
[10] Liu X,Hu Z. Design and implementation of Web cluster based on Docker container [J]. Electronic design engineering, China,2016(24):212-217.