Jump to ContentJump to Main Navigation
Show Summary Details
More options …

Journal of KONBiN

The Journal of Air Force Institute of Technology

4 Issues per year

CiteScore 2016: 0.15

SCImago Journal Rank (SJR) 2015: 0.182
Source Normalized Impact per Paper (SNIP) 2015: 0.324

Open Access
See all formats and pricing
More options …
Volume 37, Issue 1


Impact of Procedures and Technical Objects on Operation of Security Control at the Airport

Artur Kierzkowski / Tomasz Kisiel
Published Online: 2016-07-27 | DOI: https://doi.org/10.1515/jok-2016-0002


The article presents an analysis of the functioning of the system of security control at the airport. Analysis was made to examine the possibility of disruption occurring in the system after the introduction of controls using additional devices to detect trace amounts of explosives ETD. The analysis has been subjected to the possibility of using different configuration of the technical system to perform ETD control. The analysis allows the assessment of the proposed system configuration based on functional availability indicator.

Keywords: security control; ETD; system approach

7. Literatura

  • [1] Rozporządzenie Komisji (UE) Nr 185/2010 z dnia 4 marca 2010 r. ustanawiające szczegółowe środki w celu wprowadzenia w życie wspólnych podstawowych norm ochrony lotnictwa cywilnego.Google Scholar

  • [2] Rozporządzenie Komisji (WE) Nr 272/2009 z dnia 2 kwietnia 2009 r. uzupełniające wspólne podstawowe normy ochrony lotnictwa cywilnego określone w załączniku do rozporządzenia (WE) 300/2008 Parlamentu Europejskiego i Rady.Google Scholar

  • [3] Rozporządzenie Parlamentu Europejskiego I Rady (WE) Nr 300/2008 z dnia 11 marca 2008 r. w sprawie wspólnych zasad w dziedzinie ochrony lotnictwa cywilnego i uchylające rozporządzenie (WE) nr 2320/2002Google Scholar

  • [4] ICAO, Załącznik 19 do Konwencji o międzynarodowym lotnictwie cywilnym, Zarządzanie Bezpieczeństwem, Organizacja Międzynarodowego Lotnictwa Cywilnego, 2013Google Scholar

  • [5] Eilon S., Mathewson S. A simulation study for the design of an air terminal building. IEEE Transactions on Systems, Man and Cybernetics 3 (4), 1973, pp. 308–317.CrossrefGoogle Scholar

  • [6] Skorupski J., Stelmach A., Selected models of service processes at the airport. Systems Science, 34 (3), 2008, pp. 51-59.Google Scholar

  • [7] Bevilacqua M., Ciarapica F.E., Analysis of check-in procedure using simulation: a case study. In: IEEE Int. Conf. Industrial Engineering and Engineering Management (IEEM), 2010, pp. 1621–1625Google Scholar

  • [8] Manataki I.E., Zografos K.G., Assessing airport terminal performance using a system dynamics model. Journal of Air Transport Management 16 (2), 2010, pp. 86–93.Web of ScienceGoogle Scholar

  • [9] Hofer F., Schwaninger A., Using threat image projection data for assessing individual screener performance WIT Transactions on The Built Environment, Vol 82, pp.417-426.Google Scholar

  • [10] Schwaninger, A., Increasing effectiveness and efficiency in airport security screening, WIT Transactions on the Built Environment, Vol 82, pp.405-416.Google Scholar

  • [11] Schwaninger, A., Training of airport security screeners. AIRPORT, 05, 2003, pp. 11-13,Google Scholar

  • [12] Skorupski J., Uchroński P., A fuzzy reasoning system for evaluating the efficiency of cabin baggage screening at airports, Transportation Research Part C: Emerging Technologies, Volume 54, 2015, pp. 157-175Google Scholar

  • [13] Gkritza K., Niemeier D., Mannering F., Airport Security Screenning and changing passenger satisfaction: An exploratory assessment, Journal of Air Transport Management, 12(5), 2006, pp. 213-219.Google Scholar

  • [14] Wu, P.P.Y., Mengersen, K., A review of models and model usage scenarios for an airport complex system Transportation Research Part A: Policy and Practice, 47, 2013, pp. 124-140.Google Scholar

  • [15] Oum T.H., Fu X., Air transport security user charge pricing: an investigation of flat per-passenger charge vs. Ad Valorem user charge schemes. Transport. Res. Part E: Logistics Transport. Rev. 43, 2007, pp. 283–293.Web of ScienceGoogle Scholar

  • [16] Zając P.: “Evaluation method of energy consumption in logistic warehouse systems”, Springer, 2015, ISBN 978-3-319-22043-7Google Scholar

  • [17] Tubis A., Werbińska-Wojciechowska S.: Safety measure issues in passenger transportation system performance : case study W: Safety, reliability and risk analysis: beyond the horizon : proceedings of the European Safety and Reliability Conference, ESREL 2013, Amsterdam, The Netherlands, 29 September-2 October 2013 / eds. R.D.J.M. Steenbergen [i in.]. Leiden : CRC Press/Balkema, cop. 2014. s. 1309-1316Google Scholar

  • [18] Tubis A., Werbińska-Wojciechowska S.: Inventory management of operational materials in road passenger transportation company - case study. CLC 2013. Carpathian Logistics Congress - Congress Proceedings. pp: 65-70Google Scholar

  • [19] Siergiejczyk M., Krzykowska K., Rosiński A., Reliability assessment of integrated airport surface surveillance system, „Proceedings of the Tenth International Conference Dependability and Complex Systems DepCoS-RELCOMEX”. Advances in intelligent systems and computing, Vol. 365, Springer, 2015, pp. 435-443, DOI: 10.1007/978-3-319-19216-1, ISBN: 978-3-319-19215-4.CrossrefGoogle Scholar

  • [20] Krzykowska K., Siergiejczyk M., Rosiński A., The concept of the SWIM system in air traffic management, A. Weintrit (red.), Activities in Navigation, Marine Navigation and Safety of Sea Transportation, CRC Press 2015 Taylor & Francis Group, London UK, p.255 - 259, Gdynia, TransNav 2015, 17 – 19 June 2015, ISBN: 978-1-138-02858-6.Google Scholar

  • [21] Stańczyk, P., Stelmach, A. Selected aspects of modeling the movement of aircraft in the vicinity of the airport with regard to emergency situations. Advances in Intelligent Systems and Computing, 2015, 365, pp. 465-475.Google Scholar

  • [22] Zajac, M., Swieboda, J.. An Unloading Work Model at an Intermodal Terminal. (2015) In Theory and Engineering of Complex Systems and Dependability 2015, pp. 573-582Google Scholar

  • [23] Kwasniowski, S., Zajac, M., & Zajac, P., Telematic problems of unmanned vehicles positioning at container terminals and warehouses. In Transport Systems Telematics, 2010 pp. 391-399Google Scholar

  • [24] Restel F.J.: Reliability and safety models of transportation systems - A literature review. (2014) PSAM 2014 - Probabilistic Safety Assessment and ManagementGoogle Scholar

  • [25] Vališ, D., Zák, L., Pokora, O. Contribution to system failure occurrence prediction and to system remaining useful life estimation based on oil field data. Proceedings of the Institution of Mechanical Engineers, Part O: Journal of Risk and Reliability, 229 (1), 2015, pp. 36-45.Google Scholar

  • [26] Koucky, M., Valis, D., Vintr, Z. Mission profile and its effect onto system reliability. Reliability, Risk and Safety: Back to the Future, 2010, pp. 1100-1106.Google Scholar

  • [27] Kowalski M., Magott J., Nowakowski T., Werbińska-Wojciechowska S. Exact and approximation methods for dependability assessment of tram systems with time window. European Journal of Operational Research, 2014, vol. 235, Issue: 3, pp. 671-686,Web of ScienceGoogle Scholar

  • [28] Magott, J.; Nowakowski, T.; Skrobanek, P. Werbińska S. Analysis of possibilities of timing dependencies modeling-Example of logistic support system. Safety, reliability and risk analysis: theory, methods and applications, vols 1-4, Martorell, S; Soares, CG; Barnett, J (eds). Proc. of European Safety and Reliability Conference (ESREL)/17th Annual Meeting of the Society-for-Risk-Analysis-Europe (SRA-Europe) Valencia, SPAIN, SEP 22-25, 2009, pp. 1055-1063,Google Scholar

  • [29] Giel R, Plewa M. The evaluation method of the process of municipal waste collection, CLC 2015: Carpathian Logistics Congress - Congress Proceedings. [in. prep.]Google Scholar

  • [30] Bezerra G.C.L., Gomes C.F., The effects of service quality dimensions and passenger characteristics on passenger's overall satisfaction with an airport, Journal of Air Transport Management, V. 44–45, 2015, pp. 77-81Google Scholar

  • [31] Correia A.R., Wirasinghe S.C., de Barros A.G., A global index for level of service evaluation at airport passenger terminals. Transport. Res. Part E: Logistics Transport. Rev. 44, 2008, pp. 607–620.Web of ScienceGoogle Scholar

  • [32] Manataki I.E., Zografos K.G., Assessing airport terminal performance using a system dynamics model. Journal of Air Transport Management 16 (2),2010, pp. 86–93.Web of ScienceGoogle Scholar

  • [33] Kierzkowski, A., Kisiel, T. An impact of the operators and passengers behavior on the airport's security screening reliability. Safety and Reliability: Methodology and Applications - Proceedings of the European Safety and Reliability Conference, 2015 pp. 2345-2354.Google Scholar

  • [34] Kierzkowski, A., Kisiel, T., Modelling the passenger flow at an airport terminal to increase the safety level. ICMT 2015 - International Conference on Military Technologies 2015, 2015, DOI: 10.1109/MILTECHS.2015.7153693CrossrefGoogle Scholar

  • [35] Kierzkowski, A., Kisiel, T., A simulation model of safety control system functioning: a case study of the Wroclaw airport terminal, International Forum on Shipping, Ports and Airports proceedings, 2015, [in. prep.]Google Scholar

  • [36] Walkowiak T., Symulacyjna ocena gotowości usług systemów internetowych z realistycznym modelem czasu odnowy. Eksploatacja i Niezawodność – Maintenence and Reliability., 2014; Vol.16, (2): 341-346.Google Scholar

About the article

Published Online: 2016-07-27

Published in Print: 2016-07-01

Citation Information: Journal of KONBiN, Volume 37, Issue 1, Pages 23–50, ISSN (Online) 2083-4608, DOI: https://doi.org/10.1515/jok-2016-0002.

Export Citation

© 2016 Artur Kierzkowski et al., published by De Gruyter Open. This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License. BY-NC-ND 3.0

Comments (0)

Please log in or register to comment.
Log in