EVALUATING THE EFFECTIVENESS OF THE OPTICAL-ELECTRONIC SURVEILLANCE SYSTEM

Authors

  • O. V. Borovik National Academy of State Border Guard Service of Ukraine Named After Bohdan Khmelnitsky, Ukraine
  • R. V. Rachok National Academy of State Border Guard Service of Ukraine Named After Bohdan Khmelnitsky, Ukraine
  • M. M. Darmoroz National Academy of State Border Guard Service of Ukraine Named After Bohdan Khmelnitsky, Ukraine

DOI:

https://doi.org/10.15588/1607-3274-2017-2-10

Keywords:

System of optical-electronic observation, system performance indicator, mathematical methods, algorithm

Abstract

Context. In the protection of the state border of Ukraine used the new system of optical-electronic observation (SOEO). However, its potential is not fully realized. One of the reasons for this is the lack of scientific and methodological apparatus of evaluation of the effectiveness of its functioning in various factors of natural and technogenic character. The latter makes it relevant to conduct appropriate research.

Objective. The aim of this work is to develop a methodology for assessing the efficiency of SOEO.

Method. The proposed indicators of efficiency of functioning of individual surveillance technology and their integrated use with one tower system opto-electronic surveillance. The work also proposed a new indicator of efficiency of functioning of system of optical-electronic observation. The indicator takes into account features of conducting observations with the comprehensive use of various technical means of border protection in various conditions of natural and technogenic character, and given the terrain. Substantiation of expediency of their application involved the use of probabilistic-statistical methods.

Results. On the basis of information about digital characteristics of the topography of the investigated area carried out determining unobservable areas, the so-called “dead zones”. The proposed method of calculating the index of efficiency of functioning of system of opticalelectronic observation. The description of algorithmic and software implementation of this technique. Using the developed software the analysis of the functioning of the current system optical-electronic surveillance, identified key problematic aspects and directions of improving the efficiency of SOEO.

Conclusions. Modern building of SOEO is not optimal. Possible directions of increase of efficiency of its functioning can be optimization of the placement of the towers system on the ground, adjusting the height placement on the towers of surveillance technology and a good selection of the technical means of observation

Author Biographies

O. V. Borovik, National Academy of State Border Guard Service of Ukraine Named After Bohdan Khmelnitsky

Dr.Sc., Professor, Department of Engineering and Technical Means of Border Protection

R. V. Rachok, National Academy of State Border Guard Service of Ukraine Named After Bohdan Khmelnitsky

PhD, Associate Professor, Doctorate

M. M. Darmoroz, National Academy of State Border Guard Service of Ukraine Named After Bohdan Khmelnitsky

Adjunct

References

Tamal K. Curve and Surface Reconstruction : Algorithms with Mathematical Analysis. New York, Cambridge University Press, 2006, 230 p.

Owen M., Grigg M. The compression of digital terrain elevation data (DTED) using JPEG 2000 : technical report : DSTO-TR- 1548, Command and Control Division Information Sciences Laboratory. Australia, 2004, 21 p.

Stookey J., Xie Z., Cutler B., Randolph W., Tracy D., Andrade M. et al. Parallel ODETLAP for terrain compression and reconstruction, ACM SIGSPATIAL international conference on Advances in geographic information systems : 16th international conference, Irvine, 5–7 November 2008 : proceedings. ACM New York, 2008, pp. 135–144.

Franklin W., Inanc M., Xie Z., Tracy D., Cutler B., Andrade M., Luk F. et al.Smugglers and border guards – The GeoStar Project at RPI, ACM International Symposium on Advances in Geographic Information Systems : 15th international symposium, Seattle, 7–9 November 2007 : proceedings. ACM New York, 2007, pp. 228–236.

Tracy D., Franklin W., Cutler B., Andrade M., Luk F., Inanc M., Xie Z. et al.Multiple observer siting and path planning on a compressed terrain, Advanced Signal Processing Algorithms, Architectures, and Implementations : 17th international conference. San Diego, 26–27 August 2007: proceedings. Bellingham, 2007, pp. 6697–16.

Franklin W., Vogt C., Riedl A., Kainz W., Elmes G. et al.Tradeoffs when multiple observer siting on large terrain cells, Progress in Spatial Data Handling : 12th international symposium, University of Vienna, 12–14 July 2006: proceedings. Springer Berlin Heidelberg, 2006, pp. 845–861.

Franklin W., Tracy D., Andrade M., Muckell J., Inanc M., Xie Z., Cutler B. et al.Slope accuracy and path planning on compressed terrain, Spatial Data Handling : 13th international symposium, Montpellier, 23–25 July 2008: proceedings. Springer Berlin Heidelberg, 2008, pp. 335–349.

Tracy D. Path planning and slope representation on compressed terrain : thesis … doctor of philosophy. Troy, Rensselaer Polytechnic Institute, 2009, 106 p.

Gorbunov V. A. Jeffektivnost’ obnaruzhenija celej. Moscow, Voenizdat, 1979,160p.

Krivosheev V. A. Jeffektivnost’ ohrany gosudarstvennoj granicy SSSR i osnovnye napravlenija ee povyshenija. Moscow, Voenizdat, 1988, 256 p.

Car’ov Ju. O., Kuprієnko D. A. Zasobi vіzual’nogo sposterezhennja ohoroni derzhavnogo kordonu. Hmel’nic’kij, Vid-vo NADPSU, 2010, 164 p.

Dem’janjuk S. M. Pokrashhennja harakteristik radіolokacіjnih zasobіv ohoroni kordonu pri zastosuvannі spektral’no-fazovogo metodu obrobki signalіv : dis. … kand. tehn. nauk : 20.02.14. Hmel’nic’kij, 2004, 235 p.

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How to Cite

Borovik, O. V., Rachok, R. V., & Darmoroz, M. M. (2017). EVALUATING THE EFFECTIVENESS OF THE OPTICAL-ELECTRONIC SURVEILLANCE SYSTEM. Radio Electronics, Computer Science, Control, (2), 93–99. https://doi.org/10.15588/1607-3274-2017-2-10

Issue

No. 2 (2017): Radio Electronics, Computer Science, Control

Section

Progressive information technologies

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Copyright (c) 2017 O. V. Borovik, R. V. Rachok, M. M. Darmoroz

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