SELECTION OF AIRCRAFT CONFLICT-FREE TRAJECTORIES USING DIFFERENT CONVOLUTIONS OF VECTOR OPTIMALITY CRITERION

Authors

  • Wang Bo Ningbo University of Technology, China
  • Volodymyr Kharchenko Ningbo University of Technology, China; National Aviation University, Kyiv, Ukraine
  • Denys Vasyliev National Aviation University, Kyiv, Ukraine

DOI:

https://doi.org/10.18372/2306-1472.65.9813

Keywords:

aircraft, conflict resolution, convolution, multi-objective selection, vector optimality criterion

Abstract

The multi-objective decision-making problem of conflict-free flight trajectories selection is solved using linear, multiplicative and Germeier’s convolution of vector optimality criterion, which contains the flight regularity, economy and maneuvers complexity criteria. The computer simulation of multi-objective selection of conflict-free trajectories for resolution of the typical conflict was performed.

Author Biographies

Wang Bo, Ningbo University of Technology, China

Wang Bo (1980). PhD.
Associate Professor, College of Economics and Management, Ningbo University of Technology, China.
Education: National Aviation University, Kyiv, Ukraine.
Research area: presided over a “high-end project” launched by Chinese Bureau of Foreign Experts; presided over and accomplished a longitudinal project launched by the provincial education department; presided over a 800-thousand Yuan horizontal project launched by Ningbo Traffic Detachment; took a major part in a project on international cooperation launched by Ministry of Science and Technology of China (2/6); took part in a municipal project on social sciences and quite a number of horizontal projects in Ningbo.

Volodymyr Kharchenko, Ningbo University of Technology, China; National Aviation University, Kyiv, Ukraine

Kharchenko Volodymyr. Doctor of Engineering. Professor.
Winner of the State Prize of Ukraine in Science and Technology, Honored Worker of Science and Technology of Ukraine.
Acting Rector of the National Aviation University, Kyiv, Ukraine. Professor of Traffic College of Ningbo University of Technology, Ningbo, China.
Editor-in-Chief of the scientific journal Proceedings of the National Aviation University.
Education: Kyiv Institute of Civil Aviation Engineers, Kyiv, Ukraine.
Research area: management of complex socio-technical systems, air navigation systems and automatic decision-making systems aimed at avoidance conflict situations, space information technology design, air navigation services in Ukraine.

Denys Vasyliev, National Aviation University, Kyiv, Ukraine

Vasyliev Denys (1987). PhD (Eng).Associate Professor, Air Navigation Systems Department, National Aviation University, Kyiv, Ukraine.
Education: National Aviation University, Kyiv, Ukraine (2010). Research area: situation analysis and decision-making in air traffic management.

References

Vasyliev D.V. Model of multi-objective selection of trajectories for aircraft conflicts resolution / D.V. Vasyliev // Systems of information processing. – Kharkiv: KhUAF, 2013. – Issue 4 (111). – P. 85-88. (In Ukrainian).

Kharchenko V.P. Analysis the procedure of multi-objective aircraft trajectories selection at conflict resolution / V.P. Kharchenko, D.V. Vasyliev // Science Bulletin of Moscow State Technical University of Civil Aviation. – 2014. – № 201. – P. 15-22. (In Russian).

Germeier Yu.B. Introduction to the theory of operations research / Yu.B. Germeier. – Moscow: Nauka, 1971. – 383 p. (In Russian).

Lotov A.V. Multicriteria problems of decision making / A.V. Lotov, I.I. Pospelova. – Moscow: MAKS Press, 2008. – 197 p. (In Russian).

Vasyliev D.V. Mathematical model of controlled aircraft motion for analysis of air navigation service processes / D.V. Vasyliev // Systems of arms and military equipment. – 2013. – № 2. – P. 63-67. (In Ukrainian).

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Published

01-01-2015

How to Cite

Bo, W., Kharchenko, V., & Vasyliev, D. (2015). SELECTION OF AIRCRAFT CONFLICT-FREE TRAJECTORIES USING DIFFERENT CONVOLUTIONS OF VECTOR OPTIMALITY CRITERION. Proceedings of National Aviation University, 65(4), 7–11. https://doi.org/10.18372/2306-1472.65.9813

Issue

Vol. 65 No. 4 (2015)

Section

AEROSPACE SYSTEMS FOR MONITORING AND CONTROL

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