The Capacity and Effectiveness of Screening People and Baggage with the Use of New Technologies: Standard C2

• Authors: Piotr Uchroński , Jarosław Kozuba , Magdalena Letun , Katarzyna Brzeska

Abstracts

EN

One of the basic elements inseparably connected with air communication is the security control of persons and luggage which is performed by certified OKBs entered on the list of the President of the Polish CAA. An area of interest is the security check of hand baggage passengers take with them on board the aircraft. This control is carried out based on current legal regulations in the field of civil aviation security and is designed to detect prohibited and dangerous items hidden in the passenger's luggage specified in these legal acts. Due to the fact that the catalogue of these items is not included in an enumerative way, the security control operator assesses the possibility of using any item other than that specified in the document in terms of the possibility of making an act of unlawful interference. However, the skills of the security control operator are only one of the elements affecting the effectiveness of the security check being performed. The technical background and degree of technical sophistication are no less important in the control process. This paper aims to indicate possible organizational solutions to be applied in practice, which have a measurable impact not only on the effectiveness of the security control performed but also on the throughput at the security checkpoint, which in turn determines the operational readiness of the entire airport. The authors, through empirical studies carried out at airport security checkpoints equipped with different technical and technological solutions, quantitatively indicate the benefits of using new technologies and the possibility of choosing the organization of work at the security checkpoint, depending on the needs arising from the nature and number of flight operations.

Keywords

EN

airport; baggage security; baggage control; capacity; effectiveness; safety

PL

lotnisko; ochrona bagażu; kontrola bagażu; przepustowość; efektywność; bezpieczeństwo

• Publisher: Centrum Rzeczoznawstwa Budowlanego Sp. z o.o.
• Journal: Safety & Defense
• Year: 2022
• Volume: 2

Dates

published

2022

Contributors

author

Piotr Uchroński

• WSB University, Department of Transport and Computer Science, Cieplaka 1c Street, 41-300 Dąbrowa Górnicza, Poland

author

Jarosław Kozuba

• Silesian University of Technology, Faculty of Transport and Aviation Engineering, Krasińskiego 8 Street., 40-019 Katowice, Poland

author

Magdalena Letun

• Silesian University of Technology, Faculty of Transport and Aviation Engineering, Krasińskiego 8 Street., 40-019 Katowice, Poland

author

Katarzyna Brzeska

• Silesian University of Technology, Faculty of Transport and Aviation Engineering, Krasińskiego 8 Street., 40-019 Katowice, Poland

References

• 1. Adler, N., Liebert, V., Yazhemsky, E., (2013). Benchmarking airports from a managerial perspective.Omega 41
• 2. Alards-Tomalin, D., Ansons, T.L., Reich, T.C., Sakamoto, Y, Davie, R, Leboe-McGowan, J.P., Leboe-McGowan, L.C., (2014). Airport security measures and their influence on enplanement intentions: Responses from leisure travellers attending a Canadian University. Journal of Air Transport Management 37
• 3. Bagchi, A., Paul, J.A., (2014). Optimal Allocation of Resources in Airport Security: Profiling vs. Screening. Operations Research 62. doi:10.1287/opre.2013.1241.
• 4. Barros, A.G., Tomber, D.D., (2007). Quantitative analysis of passenger and baggage security screening at airports. Journal of Advanced Transportation 41 (2)
• 5. Boekhold, J., Faghri, A., Li, M., (2014). Evaluating security screening checkpoints for domestic flights using a general microscopic simulation model. Journal of Transportation Security 7.
• 6. Butler, V., Poole, R.W., (2002). Rethinking Checked Baggage Screening. Policy Study 297, Reason Public Policy Institute.
• 7. Czogała, E., Pedrycz, W. (1980). Elements and Methods of the Fuzzy Set Theory.Silesian University of Technology, Gliwice.
• 8. Dobruszkes, F., Givoni, M., and Vowles, T., (2017). Hello major airports, goodbye regional airports? Recent changes in European and US low-cost airline airport choice. Journal of Air Transport Management, 59.
• 9. Dubois, D., Prade, H., (1992). On the relevance of non-standard theories of uncertainty in modelling and pooling expert opinions. Reliability Engineering & System Safety, 36.
• 10. European Commission, (2010). Commission Regulation (EU) No 185/2010 of 4 March 2010 laying down detailed measures for the implementation of the common basic standards on aviation security, Official Journal of the European Union L 55.
• 11. Gerstenfeld, A., Berger, P.D., (2011). A decision-analysis approach for optimal airport security.International Journal of Critical Infrastructure Protection 4 (1).
• 12. Gillen, D., Morrison, W.G. (2015). Aviation security: Costing, pricing, finance and performance. Journal of Air Transport Management 48.
• 13. Gkritza, K., Niemeier, D., Mannering, F., (2006). Airport security screening and changing passenger satisfaction: An exploratory assessment.Journal of Air Transport Management 12 (5).
• 14. Greco, S., Matarazzo, B., & Slowinski, R., (2001). Rough sets theory for multicriteria decision analysis.European Journal of Operational Research, 129.
• 15. Hainen, A.M., Remias, S.M., Bullock, D.M., Mannering, F.L., (2013). A hazard-based analysis of airport security transit times. Journal of Air Transport Management 32.
• 16. ICAO, (2010). Civil Aviation Security Manual - Protection Against Unlawful Interference. International Civil Aviation Organization, Doc. 8973.
• 17. Jackson, B.A., LaTourrette, T. (2015). Assessing the effectiveness of layered security for protecting the aviation system against adaptive adversaries, Journal of Air Transport Management 48.
• 18. Kirschenbaum, A., (2013). The cost of airport security: The passenger dilemma, Journal of Air Transport Management 30.
• 19. Kirschenbaum, A., Mariani, M., Van Gulijk, C., Rapaport, C., Lubasz, S., (2012). Trusting technology: Security decision making at airports, Journal of Air Transport Management 25.
• 20. Leone, K., Liu, R., (2011). Improving airport security screening checkpoint operations in the US via paced system design, Journal of Air Transport Management 17.
• 21. Leone. K., Liu, R., (2005). The key design parameters of checked baggage security screening systems in airports, Journal of Air Transport Management 11.
• 22. Michel, S., Mendes, M., de Ruiter, J.C., Koomen, G.C.M., Schwaninger, A., (2014). Increasing X-ray image interpretation competency of cargo security screeners, International Journal of Industrial Ergonomics 44.
• 23. Narciso, M.E., Piera, M.A., (2014). Robust gate assignment procedures from an Airport management perspective, Omega. http://dx.doi.org/10.1016/j.omega.2014.06.003.
• 24. Nie, X., Parab, G., Batta, R., Lin, L., (2012). Simulation-based Selectee Lane queueing design for passenger checkpoint screening, European Journal of Operational Research 219 (1).
• 25. Nikolaev, A.G., Lee, A.J., Jacobson, S.H., (2012). Optimal Aviation Security Screening Strategies With Dynamic Passenger Risk Updates, IEEE Transactions on Intelligent Transportation Systems 13 (1).
• 26. Perboli, G., Musso, S., Perfetti, F., Trapani, P., (2014). Simulation of New Policies for the Baggage Check in the Security Gates of the Airports: The Logiscan Case Study, Procedia - Social and Behavioral Sciences 111.
• 27. Pettersen, K. A., Bjørnskau, T., (2015). Organizational contradictions between safety and security – Perceived challenges and ways of integrating critical infrastructure protection in civil aviation, Safety Science, 71B.
• 28. Rosenberg, S. (2014 August 12). Moscow bombing: Carnage at Russia’s Domodedovo airport, BBC News. http://www.bbc.co.uk/news/world-europe-12268662.
• 29. Rusiłowicz, K. (2011). Shaminder Puri v. Boarder Guard: Personal search at an airport and human rights, Precedent Case Program, Information Bulletin of the Helsinki Foundation for Human Rights, 44-45(1-2).
• 30. Shmulovich, M., Zion I.B. (2014 August 12). 7 dead, 3 critical after attack on Israeli tourists in Bulgaria, The Times of Israel. http://www.timesofisrael.com/explosion-rocks-israeli-tour-busin-bulgaria.
• 31. Siler, W., Buckley, J.J., (2005). Fuzzy expert system and fuzzy reasoning, Wiley.
• 32. Skorupski, J. and Uchroński, P., (2015). Fuzzy inference system for the efficiency assessment of hold baggage security control at the airport. Safety Science, 79.
• 33. Skorupski, J. and Uchroński, P., (2016). A Human Being as a Part of the Security Control System at the Airport, Procedia Engineering, Volume 134, 2016.
• 34. Skorupski, J. and Uchroński, P., (2018). Evaluation of the effectiveness of an airport passenger and baggage security screening system, Journal of Air Transport Management, doi: 10.1016/j.jairtraman.2017.10.006.
• 35. Skorupski, J. and Uchroński, P., (2018). Management of airport security screening system effectiveness, Safety and Reliability - Safe Societies in a Changing World - Proceedings of the 28th International European Safety and Reliability Conference, ESREL 2018, 2931-2938.
• 36. Skorupski, J., (2014). Multi-criteria group decision making under uncertainty with application to air traffic safety. Expert Systems with Applications, 41 (16).
• 37. Skorupski, J., (2014). Multi-criteria group decision making under uncertainty with application to air traffic safety, Expert Systems with Applications 40 (16).
• 38. Skorupski, J., (2015). Automatic verification of a knowledge base by using a multi-criteria group evaluation with application to security screening at an airport.Knowledge-Based Systems, 85.
• 39. Skorupski, J., Uchroński, P. (2014). Telematic Support of Baggage Security Control at the Airport, in: Mikulski J. (Ed.): TST 2014, CCIS 471, Springer.
• 40. Skorupski, J., Uchroński, P. (2015). A fuzzy model for evaluating airport security screeners’ work, Journal of Air Transport Management 48.
• 41. Skorupski, J., Uchroński, P. (2016). A fuzzy model for evaluating metal detection equipment at an airport security screening checkpoint, International Journal of Critical Infrastructure Protection, (to be published).
• 42. Skorupski, J., Uchroński, P. (2016). A fuzzy system to support the configuration of baggage screening devices at an airport, Expert Systems with Applications 44.
• 43. Skorupski, J., Uchroński, P., (2015). A fuzzy system for evaluation of baggage screening devices at an airport, in: Safety and Reliability: Methodology and Applications, Proceedings of the European Safety and Reliability Conference, ESREL 2014, CRC Press/Taylor & Francis/Balkema.
• 44. Soukour, A., Devendeville, L., Lucet, C., Moukrim, A., (2013). A Memetic Algorithm for staff scheduling problem in airport security service, Expert Systems with Applications 40 (18).
• 45. Sterchi, Y., Schwaninger, A., (2015). A First Simulation on Optimizing EDS for Cabin Baggage Screening Regarding Throughput, Proceedings of the 49th IEEE International Carnahan Conference on Security Technology, Taipei Taiwan.
• 46. Stewart, M.G., Mueller, J., (2014). Cost-benefit analysis of airport security: Are airports too safe?,Journal of Air Transport Management 35.
• 47. Tamasi, G., Demichela, M. (2011). Risk assessment techniques for civil aviation security, Reliability Engineering and System Safety 96.
• 48. Uchronski. P., (2019). Human factor in the context of assessment of psychophysical predispositions of groundhandling employee. Archives of Transport System Telematic, volume 12, Issue 3.
• 49. Uchronski. P., (2019). Number of prohibited items not accepted for transportation as a measure of the treat in civil aviation. Archives of Transport System Telematic, volume 12, Issue 3.
• 50. Wienenke, M., Koch, W. (2009). Combined person tracking and classification in a network of chemical sensors, International Journal of Critical Infrastructure Protection 2 (1-2).
• 51. Wolf, M., Minzlaff, M., & Moser, M., (2014). Information Technology Security Threats to Modern e-Enabled Aircraft: A Cautionary Note. Journal of Aerospace Information Systems.
• 52. Wong, S., Brooks, N. (2015). Evolving risk-based security: A review of current issues and emerging trends impacting security screening in the aviation industry, Journal of Air Transport Management 48.
• 53. Yildiz, Y.O., Abraham, D.Q., Panetta, K., Agaian, S., (2008). A New Concept of Airport Security Screening, IEEE Conference on Technologies for Homeland Security Waltham 2008.
• 54. Yoo, K.E., Choi, Y.C., (2006). Analytic hierarchy process approach for identifying relative importance of factors to improve passenger security checks at airports, Journal of Air Transport Management 12.
• 55. Yu, M.-M., (2010). Assessment of airport performance using the SBM-NDEA model, Omega 38.

Identifiers

DOI

10.37105/sd.190

Biblioteka Nauki

2174778