MODELING OF OBSERVATION IN THE MOUNTAIN TERRAIN DEPENDING ON NUMBER OF SUPERVISORY SYSTEMS

Article Sidebar

PDF
DOI: https://doi.org/10.20998/2522-9052.2020.2.06
Keywords:
modelling, observation, mathematical model, supervisory system, software module

Main Article Content

Azad Agalar oğlu Bayramov
National War College of Armed Forces of the Azerbaijan Republic; Control Systems Institute of the Azerbaijan National Academy of Sciences, Baku
https://orcid.org/0000-0001-6672-2338
Elhan Nariman oglu Sabziev
Institute of Control Systems of Azerbaijan National Academy of Sciences, Baku
https://orcid.org/0000-0001-8150-9439
Yashar Ali оgly Nasibov
Geography Institute of Azerbaijan National Academy of Sciences, Baku
https://orcid.org/0000-0002-8749-6154

Abstract

The various types of electron-optical supervisory systems (SCS) have been used in the border stations of border zones in the Armed Forces of many countries. The mission of these SCS is to supervise the possible activities of smugglers, the illegal movement of enemy troops, the technics and weapon systems, the frontier intruders. In the paper, there has been offered a method which, on the basis of the developed mathematical model and Geography Information System technology, allows modeling of observation in mountain terrain depending on the number and location of SCS. The developed software module allows: 1) to generate the investigated terrain based on Digital Terrain Elevation Data file, 2) to input the possible observation points and the controlled zone via an interface, 3) to simulate and visualize the observed areas for both single and group observation devices located in the possible observation points. The developed method had been applied to one of the selected terrains of the Azerbaijan Republic and demonstrated efficiency of the offered method. Based on the developed model and GIS technology the visual modeling in mountain terrain depending on a number and a location of the SCS has been carried out.

Article Details

How to Cite
Bayramov, A. A. oğlu, Sabziev, E. N. oglu, & Nasibov Y. A. о. (2020). MODELING OF OBSERVATION IN THE MOUNTAIN TERRAIN DEPENDING ON NUMBER OF SUPERVISORY SYSTEMS. Advanced Information Systems, 4(2), 29–33. https://doi.org/10.20998/2522-9052.2020.2.06
Issue
Vol. 4 No. 2 (2020): Advanced Information Systems
Section
Information systems modeling
Author Biographies

Azad Agalar oğlu Bayramov, National War College of Armed Forces of the Azerbaijan Republic; Control Systems Institute of the Azerbaijan National Academy of Sciences, Baku

Doctor of Physics and Mathematics, Professor

Elhan Nariman oglu Sabziev, Institute of Control Systems of Azerbaijan National Academy of Sciences, Baku

Candidate of Physics and Mathematics, Associate Professor

Yashar Ali оgly Nasibov, Geography Institute of Azerbaijan National Academy of Sciences, Baku

research fellow

References

Merlin, A.S. and Savitha, S.R., (2014), “Smart Distribution Automation using Supervisory Control and Data Acquisition with Advanced Metering Infrastructure and GPRS Technology”, International Journal of Engineering Research and General Science, Vol. 2(5), pp. 191-197.

(2014), Supervisory Control and Data Acquisition (SCADA) Systems, Technical Information Bulletin 04-1, Office of the manager national communications system, 76 p.

Radevich, V.А. (2014), Military geoinformation systems, Republic Conference, Proceeding materials, 24 April 2014, BSU, Minsk, 65 p.

Nasibov, Y.A. (2014), “Geoinformation system, application areas and benefits”, Herbi Bilik Journal, Baku, Vol. 4, pp. 18-26.

Sabziev, E.N., Bayramov, A.A. and Nasibov, Y.A., (2018), “Modeling of the optimal deployment of technical observing systems in mountainous terrain”, Materials of International Scientific Conference "Modern Problems of Mathematical Modeling, Computational Methods and Information Technologies", Rivne, Ukraine, 02 - 04 March 2018, pp. 20-21.

Bayramov, A.A., Sabziev, E.N. and Nasibov, Y.A (2018), “The model of the rationally deployment of observing systems”, Proc. of Annual Conference “Modern security and defense problems”, War College after “Georgi Rakovski”, II part. Sofia, Bulgaria, 17–18 May 2018, pp. 156-159.

Nasibov, Y.A., Bayramov, A.A., Sabziev, E.N. and Hashimov, E.G. (2019), “Modeling of the rationally deployment of observing systems”, Advanced İnformation Systems, Vol. 3, No. 2, pp. 10-13, DOI: https://doi.org/10.20998/2522-9052.2019.2.02

(2018), Spatial analysis, available from http://www.esri.com/software/arcgis/extensions/spatialanalyst

(2018), Global-mapper software, available from http://www.bluemarblegeo.com/products/global-mapper.php

Jarvis, A., Reuter, H.I., Nelson, A. and Guevara, E. (2008), Hole-filled SRTM for the globe Version 4, available from the CGIAR-CSI SRTM 90m Database.

Каftan, V.I. (2008), “Coordinate systems and reference system in geodesy, geoinfornatic and bavigation”, GEOPROFI, Vol. 3, pp. 60-63.

Boucher, C. and Altamimi, Z. (2001), “PZ–90 and WGS–84: current realizations and the related transformation parameters”, Journal of Geodesy, Vol. 75, pp. 613-619.

Reuter, H.I, Nelson, A. and Jarvis, A. (2007), “Evaluation methods of void filling interpolation for SRTM data”, International Journal of Geographic Information Science, Vol. 21(9), pp. 983-1008.