As of August 2024, International Journal "Notes on Intuitionistic Fuzzy Sets" is being indexed in Scopus.
Please check our Instructions to Authors and send your manuscripts to nifs.journal@gmail.com. Next issue: September/October 2024.

Open Call for Papers: International Workshop on Intuitionistic Fuzzy Sets • 13 December 2024 • Banska Bystrica, Slovakia/ online (hybrid mode).
Deadline for submissions: 16 November 2024.

Issue:Generalized net model of in-queue flights: Difference between revisions

From Ifigenia, the wiki for intuitionistic fuzzy sets and generalized nets
Jump to navigation Jump to search
mNo edit summary
m IWGN
Line 13: Line 13:
}}
}}
{{issue/data
{{issue/data
  | conference      = 9<sup>th</sup> [[ICIFS]], Sofia, 4 July 2008
  | conference      = 9<sup>th</sup> [[IWGN]], Sofia, 4 July 2008
  | issue          = [[International Workshop on Generalized Nets/2008|Conference proceedings]], pages 94—101
  | issue          = [[International Workshop on Generalized Nets/2008|Conference proceedings]], pages 94—101
  | file            = IWGN-2008-094-101.pdf
  | file            = IWGN-2008-094-101.pdf

Revision as of 19:27, 14 March 2009

shortcut
http://ifigenia.org/wiki/issue:{{{shortcut}}}
Title of paper: Generalized net model of in-queue flights
Author(s):
Dimitar Dimitrakiev
Technical University – Varna, 1 Studentska Str., 9010 Varna, Bulgaria
ddimitrakiev@yahoo.com
Presented at: 9th IWGN, Sofia, 4 July 2008
Published in: Conference proceedings, pages 94—101
Download:  PDF (154  Kb, File info)
Abstract: The paper presents a generalized net model of the process of situational optimization of in-queue flights. The latter are analyzed as discrete-event systems as they are influenced by different types of changes in the environment, which impose changes in the optimal flight parameters. The model is intended to say what actions should be undertaken at different deviations the discrete events cause. The generalized net model has seven transitions and five types of tokens.


References:
  1. Atanassov, K. (1991) Generalized Nets. World Scientific, 1991.
  2. Atanassov, К. (2001) Generalized Net as Tools for Modelling in the Area of the Artificial Intelligence, Advanced Studies in Contemporary Mathematics, Vol. 3, No. 1, pp. 21-42.
  3. Bevonius, J., Josefsson, B. (2002) The In-Trail Separation Experience, Proc. IEEE AIAA Digital Avionics Systems Conference, Irvineca, USA, Vol. 2, pp. 11B6.
  4. Bodner, V.A. (1975) A Theory of Flight Control, Nauka, Moscow, 1975 (in Russian: В.А. Боднер (1975) Теории управление полета, Наука, Москва).
  5. Cieplak, J.J., Peppard, K., Sweeny, F., Stone, R.P., Briggs, E.F. (1994) Oceanic In-Trail Climb using TCAS I, Annual Air Traffic Control Association Convention Proc. 39-th Annual Meeting, Arlington, USA, pp. 206-211.
  6. Dimitrakiev, D., Nikolova, N.D., Tenekedjiev, K. (2006) Optimization оf Discrete-Event Driven In-Queue-Flights, Control Engineering and Applied Informatics, Vol. 8, No. 2, pp. 3-12.
  7. Ho, Y.C. (1992) Discrete Event Dynamic Systems, IEEE Press.
  8. Hoffman, E., Ivanescu, D., Show, C., Zeghal, K. (2002) Analysis of Spacing Guidance for Sequencing Aircraft on Merging Trajectories, EUROCONTROL Experimental Center, CoSpace.
  9. Ivanescu, D., Hoffman, E., Zeghal, K. (2002) Impact of ADS-B Link Characteristics on the Performance of In-Trail Following Aircraft, EUROCONTROL Experimental Center, CoSpace.
  10. Klass, P.J. (1996) In-Trail TCAS Descent Approved by FA, Aviation Week & Space Technology, USA, Vol. 145, No. 23, pp. 32-33.
  11. Phillips, E.H. (1994) TCAS Key to In-Trail Climb, Aviation Week & Space Technology, USA, Vol. 140, No. 18, pp. 28.
  12. Pritchett, A.R., Yankosky, L.J. (2003) Pilot-Performed In-Trail Spacing and Merging: an Experimental Study, Journal of Guidance, Control and Dynamics, USA, vol. 26, No. 1, pp. 143-150.
  13. Samad, T., Weyrauch, J. (2000) Automation, Control and Complexity – an Integrated Approach, John Wiley.
  14. Sorensen, J.A., Goka, T. (1983) Analysis of In-Trail Following Dynamics of CDTI-Equipped Aircraft, Journal of Guidance, Control and Dynamics, USA, vol.6, pp. 162-169.
  15. Tarassov, V.G. (1980) Interaircraft Navigation, Moscow, Mashinostroenie (in Russian).
Citations:

The list of publications, citing this article may be empty or incomplete. If you can provide relevant data, please, write on the talk page.