Creation of the input parameters database for modeling of dynamics of the cloud formed at carrier rocet surface explosion

Authors

  • N. N. Bolshakova RSE Scientific and Research Center "Garish-Ecology" Almaty, Republic of Kazakhstan
  • K. Zh. Zhubat RSE Scientific and Research Center "Garish-Ecology" Almaty, Republic of Kazakhstan
  • A. S. Zenina RSE Scientific and Research Center "Garish-Ecology" Almaty, Republic of Kazakhstan
  • K. K. Karzhaubayev al-Farabi Kazakh National University, Almaty, Republic of Kazakhstan

DOI:

https://doi.org/10.26577/jmmcs-2017-3-474
        59 58

Keywords:

Database, geographic information system, carrier rocket accident, modelling, program complex, input parameters

Abstract

Use of geographic information system (GIS) opportunities is widespread among the experts working
with large volumes of data. Advantage of GIS in comparison with other information systems is
existence of the digital card giving land surface information. Because of this GIS often use for
dynamic processes modeling. In this article the GIS database created for the model of formation
and dynamics of the cloud formed at carrier rocet surface explosion is considered. By means
of GIS the model input parameters are collected and systematized, the cartographical basis is
prepared. After database integration into the program complex providing model functioning, all
input parameters forms had access to the database. The cartographical basis placed in a primary
interface window allows to visualize the cloud movement over land surface and his sizes change also
with the help the map-metric functions to receive the pertinent squares and distances. The addition
of the map new "layers"of especially protected natural territories, of a soil cover or infrastructure
subroute territory gives the chance to take additional necessary information. The database is also
storage for modeling results which will be perhaps used for ecological assessment of cloud influence
on the surrounding environment.

References

[1] Environmental problems and risks of impacts of rocket and space technology on the environment: a reference book / Ed.
V.V. Adushkina, S.I. Kozlova, A.V. Petrova. - Moscow: Ankil, 2000. – P. 640.
[2] Fan Y., Fahong L., Jianping SHI . Applications of GIS in Environment Monitoring [electronic
resource]. - Technical Division of Surveying and Mapping, Xian, Shaanxi, China,2011. URL:
http://www.seiofbluemountain.com/upload/product/201105/2011fzjz31.pdf (date of the application: 16.07.2017)
[3] Goodchild M. F. GIS and Modeling Overview [electronic resource]. - Ch. 1. National center for geographic information
and analysis university of California Santa Barbara, California. 2008. URL: http://geog.ucsb.edu/ good/papers/414.pdf
(date of the application: 28.08.2017)
[4] Ishii M. and Yamamoto K. "An Environmental Risk Evaluation Method Employing Atmospheric Dispersion Models and
GIS,"Journal of Environmental Protection, Vol. 4 No. 12, 2013, P. 1392-1408. doi: 10.4236/jep.2013.412160.
[5] Jakala D. A GIS Enabled Air Dispersion Modeling Tool for Emergency Management [electronic resource].
- Department of Resource Analysis, Saint Mary’s University of Minnesota, Minneapolis, 2007.URL:
http://www.gis.smumn.edu/GradProjects/JakalaS.pdf (date of the application: 06.08.2017)
[6] Mitchell E. ESRI GIS Analysis Guide. Geographical regularities and interactions / / M: Moscow State University. MV
Lomonosov, Faculty of Geography, 2001. - Volume 1. - Per from the English. – P.190.
[7] Shaner J., Wrightsell J. Editing in ArcMap // M: MSU, 2002. – P. 226.
[8] Ungerer, M. J., M. F. Goodchild. 2002. Integrating spatial data analysis and GIS: A new implementation using the
Component Object Model (COM) / International Journal of Geographical Information Science. 2002. – Vol. 16. - Р
41–54.
[9] Zeiler M. Modeling of our world. ESRI’s Guide to Geodatabase Design // M: Moscow State University. MV Lomonosov,
Faculty of Geography, 2001. – P.254.
[10] Development of a software package for simulating the dynamics of a cloud formed during a ground-based explosion of a
carrier rocket: a report on the research project / RSE "SRC" Garish-Ecology ": hands. Zhubatov Zh. - Almaty, 2015. –
P.152. - No.GR 0115РК01057. - Inv. No. 0215RK01616.

Downloads

How to Cite

Bolshakova, N. N., Zhubat, K. Z., Zenina, A. S., & Karzhaubayev, K. K. (2018). Creation of the input parameters database for modeling of dynamics of the cloud formed at carrier rocet surface explosion. Journal of Mathematics, Mechanics and Computer Science, 95(3), 69–77. https://doi.org/10.26577/jmmcs-2017-3-474