Abstract
Supply chain security and resilience represent the key aspects of the long-term sustainability and well-being of current societies. The ability of global supply chains to be resilient and flexible has to face a wide range of threats, uncertainties, and sudden shifts in case the time and necessary resources for the adequate reaction are limited. Challenges affecting supply chains, which companies have to deal with, result from a changeable environment and threats in the form of sudden demand shifts as well as unavailability of necessary resources caused by security threats. A conceptual model based on a modified CPM method was created on the basis of the scientific literature review research, focusing on available open sources and data, and subsequently applied to the further development of global distribution chains, logistics infrastructure, and availability of logistics capabilities. Possible approaches and methods of mitigation of the constraints to supply chains were discussed.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Lovecek T et al (2017) Determining the resilience of transport critical infrastructure element: use case. Kaunas University of Technology, Juodkrante. ISSN 1822296X
Dujak D (2019) Causal analysis of retail distribution system change from direct store delivery to centralized distribution. IBIMA Bus Rev 2019:1–14
Zeman T, Urban R (2019) The negative impact of terrorism on tourism: not just a problem for developing countries? DETUROPE 11(2):75–91
Dinçer H, Hošková-Mayerová Š, Korsakienė R et al (2020) IT2-based multidimensional evaluation approach to the signaling: investors’ priorities for the emerging industries. Soft Comput 24:13517–13534. https://doi.org/10.1007/s00500-019-04288-6
Tulach P et al (2020) Replacement possibilities of the medium-sice truck transport capability by UAVs in the disturbed logistics infrastructure. Springer International Publishing AG, Roma, pp 139–153. ISBN 978-3-030-70739-2
Huntington S (2001) Clash of civilizations (Střet civilizací). Rybka, Prague, p 65. ISBN 80-861-8249-5
Rehak D, Hromada M, Ristvej J (2017) Indication of critical infrastructure resilience failure. In: Safety and reliability—theory and applications—Proceedings of the 27th European safety and reliability conference, ESREL 2017. CRC Press/Balkema, Portorož, pp 963–970. ISBN 978-113862937-0
Korsakienė R, Bekesiene S, Hošková-Mayerová Š (2019) The effects of entrepreneurs’ characteristics on internationalisation of gazelle firms: a case of Lithuania. Econ Res-Ekonomska Istraživanja 32(1):2864–2881. https://doi.org/10.1080/1331677X.2019.1655658
Strnádek J (2004) Aspects of world integration and globalization (Aspekty světové integrace a globalizace). Vojenské rozhledy 13(45):2
Simchi-Levi D, Kaminsky P, Simchi-Levi E (2002) Designing and managing the supply chain: concepts, strategies, and case studies, 2 edn. McGraw-Hill/Irwin, Boston, p 3. ISBN 978-0072845532
Zsidisin G, Ritchie B (2009) Supply chain risk. Springer, New Delphi, p 350. ISBN 978-0-387-79934-6
Waters D (2007) Supply chain risk management: vulnerability and resilience in logistics. Kogan Page, Philadelphia, p 256. ISBN 978-0-7494-4854-7
EU (2010) Internal security strategy for the European Union—towards an European security model. European Union, Brussels, pp 13–14. ISBN 978-92-82-824-2679
Foltin P (2012) Selected aspects of logistics chains security of armed forces. Brno Univ Defence Brno 2012:71. https://doi.org/10.13140/2.1.2759-1364
Sedlačík M et al (2014) Application of Modified CPM on Portfolio of Security Criterions on Logistics Chains (Aplikace modifikované metody CPM na portfolio bezpečnostních kritérií v logistických řetězcích) [Final report of the specific research project]]. University of Defence in Brno, Brno
Tušer I, Jánský J, Petráš A (2021) Assessment of military preparedness for naturogenic threat: the COVID-19 pandemic in the Czech Republic. Heliyon 7(4). https://doi.org/10.1016/j.heliyon.2021.e06817
Bertsekas D (1996) Neuro-dynamic programming: an overview [Online] 1996. Cited: 14 October 2020. http://web.mit.edu/people/dimitrib/NDP_Encycl.pdf.
National Research Council (1999) Reducing the logistics burden for the Army after next: doing more with less. The National Academies Press, Washington, DC. ISBN 978-0-309-06378-4
NATO Code of Best Practice for C2 Assessment. CCRP, 2002, p 322. ISBN 1-893723-09-7
Entchelmeier A, Hartman E, Henke M (2006) Supply risk assessment: a utility value based concept. IMP Group [Online] 2006. Cited: 14 March 2021. https://www.impgroup.org/uploads/papers/5682.pdf
Rinaldi S, Peerenboom J, Kelly T (2001) Critical infrastructure interdependencies. Control Syst Mag 21(6):12
Freier N (2008) Known unknowns: unconventional “strategic shocks” in defence strategy development, vol PKSOI Papers. U.S. Army War College, Carlisle, p 18. ISBN 978-158-4873-686
Tang C, Teo C-P, Wei K (2008) Supply chain analysis. Stanford University, Stanford, p 206. ISBN 978-0-387-75240-2
Ayling J (2009) Criminal organizations and resilience. Int J Law Crime Just 37:182–186
Chapman C (2015) Supply chain risk management—a comparative study of small to medium enterprises vs. large enterprises. University of Saskatchewan, Bracebridge. MBA 992 Research Project
Schwartz P (2004) Inevitable suprises—thinking ahead in a time of turbulence. Penguin Group Inc., New York, p 3. ISBN 1-592-40069-8
Foltin P et al (2018) Discrete event simulation in future military logistics applications and aspects. Springer International Publishing AG, Roma, pp 410–421. ISBN 978-3-319-76072-8
Vlkovský M (2020) Impact of vehicle type and road quality on cargo securing. Commun—Sci Lett Univ Zilina 22(1):9–14
Paulsson U (2007) On managing disruption risks in the supply chain—the DRISC model. Lund University, Lund, p 77
Vlkovský M, Veselík P (2019) Cargo securing—comparison of different quality roads. Acta Universitatis Agriculturae et Silviculturae Mendelianae Brunensis 67(4):1015–1023
Gros I, Barančík I, Čujan Z (2016) Big book of logistics (Velká kniha logistiky). University of Chemistry and Technology Prague, Prague, p 273. ISBN 978-80-7080-952-5
Jablonský J (2002) Operations research: quantitative models for economic decision making (Operační výzkum: kvantitativní modely pro ekonomické rozhodování). Professional Publishing, Brno, pp 1991–1199. ISBN 80-86419-23-1
Foltin P (2011) Security of logistics chains against terrorist threats. In: The 17th international conference “the knowledge-based organization”. Nicolae Balcescu Land Forces Academy, Sibiu, pp 100–105. ISSN 1843-6722
Acknowledgements
The work presented in this chapter has been supported by the institutional support of the Ministry of Defence of the Czech Republic, Development of capabilities and sustainability of logistic support systems (research project DZRO ROZVOLOG Rozvoj schopností a udržitelnosti systémů logistické podpory, 2015–2021).
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2022 The Author(s), under exclusive license to Springer Nature Switzerland AG
About this chapter
Cite this chapter
Foltin, P., Tulach, P. (2022). Scenarios of Supply Chain Security and Resilience Under the Conditions of Uncertainty and Sudden Demand Shifts. In: Tušer, I., Hošková-Mayerová, Š. (eds) Trends and Future Directions in Security and Emergency Management. Lecture Notes in Networks and Systems, vol 257. Springer, Cham. https://doi.org/10.1007/978-3-030-88907-4_23
Download citation
DOI: https://doi.org/10.1007/978-3-030-88907-4_23
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-030-88906-7
Online ISBN: 978-3-030-88907-4
eBook Packages: Intelligent Technologies and RoboticsIntelligent Technologies and Robotics (R0)