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Conception of decision support system for resilience management of seaport supply chains

Autorzy
Nowakowski T. , Młyńczak M. , Tubis A. , Werbińska-Wojciechowska S.
Treść / Zawartość
Pełne teksty:
JPSRA_1_2016_Nowakowski.pdf
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The target of this paper is to present the preliminary concept of decision support system for seaports supply chain risk management in the aspect of vulnerability and resilience engineering. As a result, there is discussed a literature review connected with resilience engineering of seaport infrastructure systems and their supply chains. Later, the decision support system conception is investigated. The developed solution is to be based on the What if? approach and Bow-Tie method. The work ends up with summary and directions for further research.
Słowa kluczowe
EN
Wydawca
Polskie Towarzystwo Bezpieczeństwa i Niezawodności
Czasopismo
Journal of Polish Safety and Reliability Association
Rocznik
2016
Tom
Vol. 7, No. 1
Strony
177--186
Opis fizyczny
Bibliogr. 76 poz., rys.
Twórcy
autor
Nowakowski T.
  • Wrocław University of Technology, Wrocław, Poland
autor
Młyńczak M.
  • Wrocław University of Technology, Wrocław, Poland
autor
Tubis A.
  • Wrocław University of Technology, Wrocław, Poland
autor
Werbińska-Wojciechowska S.
  • Wrocław University of Technology, Wrocław, Poland
Bibliografia
  • [1] Acciaro, M. & Serra, P. (2013). Maritime supply chain security: a critical review. Proceedings of the International Forum on Shipping, Ports and Airports (IFSPA) 2013: Trade, Supply Chain Activities and Transport: Contemporary Logistics and Maritime Issues, 3-5 June 2013, Hong Kong, China, 636-651.
  • [2] Albino, V. & Garavelli, A. C. (1995). A methodology for the vulnerability analysis of justin-time production systems. International Journal of Production Economics 41, 71-80.
  • [3] Aleksic, A., Stefanovic, M., Tadic, D. et al. (2014). A fuzzy model for assessment of organization vulnerability. Measurement 51, 214223.
  • [4] Arnott, D. & Pervan, G. (2008). Eight key issues for the decision support systems discipline. Decision Support Systems 44, 657-672.
  • [5] Asbjornslett, B. E. & Gisnaas, H. (2007). Coping with risk in maritime logistics. In: Risk, Reliability and Societal Safety. Aven, T., Vinnem (eds.), Taylor and Francis Group, London, 26692675.
  • [6] Ascencio, L. M., Gonzalez-Ramirez, R. G., Bearzotti, L.A. et al. (2014). A collaborative supply chain management system for a maritime port logistics chain. Journal of Applied Research and Technology 12, 444-458.
  • [7] Bakir, N. O. (2007). A brief analysis of threats and vulnerabilities in the maritime domain. Non-published Research Reports, 5, [available at: http://research.create.usc.edu/nonpublished_repo rts/5].
  • [8] Balmat, J-F., Lafont, F., Maifret, R. et al. (2011). A decision-making system to maritime risk assessment. Ocean Engineering, 38, 171-176.
  • [9] Barnes, P. & Oloruntoba, R. (2005). Assurance of security in maritime supply chains: Conceptual issues of vulnerability and crisis management. Journal of International Management 11, 519540.
  • [10] Becker, A. H., Matson, P., Fischer, M. et al. (2015). Towards seaport resilience for climate change adaptation: Stakeholder perceptions of hurricane impacts in Gulfport (MS) and Providence (RI). Progress in Planning 99, 1-49.
  • [11] Berle, O., Asbjornslett, B.E. & Rice, J.B. (2011). Formal vulnerability assessment of a maritime transportation system. Reliability Engineering and System Safety 96, 696-705.
  • [12] Bichou, K. (2007). Review of port performance approaches and a supply chain framework to port performance benchmarking. Devolution, Port Governance and Port Performance Research in Transportation Economics 17, 567-598.
  • [13] Bounif, M. E. & Bourahla, M. (2013). Decision Support Technique for Supply Chain Management. Journal of Computing and Information Technology - CIT 21, 4, 255–268.
  • [14] Briano, E., Caballini, C. & Revetria, R. (2009). Literature review about supply chain vulnerability and resiliency. Proc. of the 8th WSEAS International Conference on SYSTEM SCI-ENCE and SIMULATION in ENGINEERING, 2009.
  • [15] Chang, Ch-H. & Xu, J. (2015). Risk analysis for container shipping: from a logistics perspective. The International Journal of Logistics Management 26, 147-171.
  • [16] Chlebus, M., Nowakowski, T. & WerbińskaWojciechowska, S. (2015). Supply chain vulnerability assessment methods - possibilities and limitations, Safety and reliability of complex engineered systems: proceedings of the 25th European Safety and Reliability Conference, ESREL 2015, Zurich, Switzerland, 7-10, CRC Press/Balkema, 1667-1678.
  • [17] Chodak, G. (2001). Decision support system of warehause management in the area of distribution system performance (in Polish). Doctoral Thesis, PWr, Wroclaw.
  • [18] Christopher, M. & Peck, H. (2004). Building the resilient supply chains. International Journal of Logistics Management 15, 2, 1-14.
  • [19] Christowa, Cz. (2012). European Union transportation and maritime policies as a factor in competitiveness and development of Polish seaports (in Polish). Logistyka 2, 58-68.
  • [20] Colicchia. C., Dallari, F. & Melacini, M. (2010). Increasing supply chain resilience in a global sourcing context. Production Planning and Control 21, 7, 680-694.
  • [21] Creating a Resilient Supply Chains: A practical Guide. (2003). Cranfield School of Management, [available at: https://dspace.lib.cranfield.ac.uk/bitstream/1826/4374/1/Creating_resilient_supply _chains.pdf].
  • [22] Czermiński, J. (2000). The development study of computer system supporting the strategic decision process performance in the area of enterprise management (in Polish). Zeszyty Naukowe Wyższej Szkoły Administracji i Biznesu w Gdyni 3, 14-25.
  • [23] Decision Support Systems. (2002), [available at: diuf.unifr.ch/ds/courses/dss2002/pdf/DSS.pdf; accessed 22 March 2012].
  • [24] Despres, S. & Rosenthal-Sabroux, C. (1992). Designing Decision Support Systems and Expert Systems with a better end-use involvement: A promising approach. European Journal of Operational Research 61, 145-153.
  • [25] Dulebenets, M.A., Golias, M.M., Mishra, S. et al. (2015). Evaluation of the floaterm concept at marine container terminals via simulation. Simulation Modelling Practice and Theory 54, 19-35.
  • [26] Eom, S. B. (2001). Decision Support Systems. In: International Encyclopaedia of Business and Management, 2nd Edition, Warner M. (ed.). London: International Thomson Business Publishing Co.
  • [27] Francis, R. & Bekera, B. (2014). A metric and frameworks for resilience analysis of engineered and infrastructure systems. Reliability Engineering and System Safety 121, 90-103.
  • [28] Goerlandt, F. & Montewka, J. (2015). A framework for risk analysis of maritime transportation systems: A case study for oil spill from tankers in a ship-ship collision. Safety Science 76, 42-66.
  • [29] Goerlandt, F. & Montewka, J. (2015). Maritime transportation risk analysis: review and analysis in light of some foundational issues. Reliability Engineering and System Safety 138, 115-134.
  • [30] Grobarek, I., Grzywański, Ł., Mączka, I. et al. (2007). Dependability of Decision Support Systems (in Polish), Wroclaw, [available at: http://www.ioz.pwr.wroc.pl/Pracownicy/mercik/zbiory/Prezentacje%202007/z3-opracowanie.pdf; accessed 22 March 2012].
  • [31] Han, K. (2006). Developing a GIS-based Decision Support System for Transportation System Planning. AASHTO GIS-T, [available at: http://www.gis-t.org/files/gnYKJ.pdf; accessed 23 March 2012].
  • [32] Jodejko-Pietruczuk, A. & Plewa, M. (2012). Reliability based model that supports decision making about recovery options in the area of reverse logistics. Proc. of 11th International Probabilistic Safety Assessment and Management Conference and the Annual European Safety and Reliability Conference 2012, PSAM 11 & ESREL 2012, 4555-4562.
  • [33] John, A., Yang, Z., Riahi, R et al. (2014). Application of a collaborative modelling and strategic fuzzy decision support system for selecting appropriate resilience strategies for seaport operations. Journal of Traffic and Transportation Engineering 1, 3, 159-179.
  • [34] John, A., Yang, Z., Riahi, R. et al. (2016). A risk assessment approach to improve the resilience of a seaport system using Bayesian networks. Ocean Engineering 111, 136-147.
  • [35] John, A., Paraskevadakis, D., Bury, A. et al. (2014). An integrated fuzzy risk assessment for seaport operations. Safety Science 68, 180-194.
  • [36] Lam, J.S.L., Bai, X. (2016). A quality function deployment approach to improve maritime supply chain resilience. Transportation Research Part E, [available at: http://dx.doi.org/10.1016/ j.tre.2016.01.012].
  • [37] Lam, J. S. L. & Su, S. (2015). Disruption risks and mitigation strategies: an analysis of Asian ports. Maritime Policy and Management 42, 5, 415-435.
  • [38] Laxe, F. G., Seoane, M. J. F. & Montes, C. P. (2012). Maritime degree, centrality and vulnerability: port hierarchies and emerging areas in containerized transport (2008-2010). Journal of Transport Geography 24, 33-44.
  • [39] Loh, H. S. & Thai, V. V. (2014). Managing portrelated supply chain disruptions: a conceptual paper. The Asian Journal of Shipping and Logistics 30, 1, 97-116.
  • [40] Longo, F. & Oren, T. (2008). Supply chain vulnerability and resilience: a state of the art overview. Proceedings of The European Modeling & Simulation Symposium, Campora S. Giovanni (CS), Italy.
  • [41] Madhusudan, C. & Ganapathy, G. P. (2011). Disaster resilience of transportation infrastructure and ports – An overview. International Journal of Geomatics and Geosciences 2, 2, 443-455.
  • [42] Mansouri, M., Lee, H. & Aluko, O. (2015). Multi-objective decision support to enhance environmental sustainability in maritime shipping: a review and future directions. Transportation Research Part E 78, 3-18.
  • [43] Mansouri, M., Nilchiani, R. & Mostashari, A. (2010). A policy making framework for resilient port infrastructure systems. Maritime Policy 34, 1125-1134.
  • [44] Marhavilas, P. K., Koulouriotis, D. & Gemeni, V. (2011). Risk analysis and assessment methodologies in the work sites: on a review classification and comparative study of the scientific literature of the period 2000-2009. Journal of Loss Prevention in the Process Industries 24, 477-523.
  • [45] Mokhtari, K., Ren, J., Roberts, Ch. et al. (2012). Decision support framework for risk management on sea ports and terminals using fuzzy set theory and evidential reasoning approach. Expert Systems with Applications, 39, 5087-5103.
  • [46] Moore, J. H. & Chang, M. G. (1980). Design of Decision Support Systems, ACM SIGMIS Database. Selected papers on decision support systems from the 13th Hawaii International Conference on System Sciences, 12, Issue 1-2, ACM New York, NY, USA.
  • [47] Nelson, E. S. (2012). Maritime terrorism and piracy: existing and potential threats. Global Security Studies 3, 1, 15-218.
  • [48] Nowakowski, T. (2013). Vulnerability vs. dependability of logistic systems. Proceedings of Carpathian Logistics Congress CLC 2013, Cracow, Poland, 9-11.
  • [49] Nowakowski, T. (2013). Vulnerability vs. Dependability and Risk – analysis of the definitions (in Polish). Proceedings of XLI Winter School of Reliability: Dependability of Critical Infrastructures. Szczyrk, Poland, 13-17.
  • [50] Nowakowski, T. & Valis, D. (2013). Selected Options of Vulnerability Assessment – State of Art in Literature Review. Logistics and Transport 17, 1, 33-40.
  • [51] Nowakowski, T. & Werbińska-Wojciechowska, S. (2014). Problems of logistic systems vulnerability and resilience assessment. P. Golinska (ed.), Logistics operations, supply chain management and sustainability, Springer, 171-186.
  • [52] Pant, R., Barker, K., Ramirez-Marques, J-E. et al. (2014). Stochastic measures of resilience and their application to container terminals. Computers and Industrial Engineering 70, 183194.
  • [53] Peck, H. (2006). Reconciling supply chain vulnerability, risk and supply chain management. International Journal of Logistics: Research and Applications 9, 2, 127-142.
  • [54] Ponis, S.T. (2012). Supply chain resilience: definition of concept and its formative elements. The Journal of Applied Business Research 28, 5, 921-930.
  • [55] Power, D.J. (2007). A Brief History of Decision Support Systems, [available at: http://DSSResources.COM/history/dsshistory.htm l, version 4.0, March 10].
  • [56] Power, D. J. (2008). Understanding Data-Driven Decision Support Systems. Information Systems Management 25, 2, 149-154.
  • [57] Praetorius, G., Hollnagel, E. & Dahlman, J. (2015). Modelling Vessel Traffic Service to understand resilience in everyday operations. Reliability Engineering and System Safety 141, 10-21.
  • [58] Program of development of Polish seaports by 2020 (with the prospect of 2030) (in Polish). (2013). Ministry of Transport, Construction and Maritime Economy, Warsaw.
  • [59] Rao, S. & Goldsby, T.J. (2009). Supply chain risks: a review and typology. The International Journal of Logistics Management 20, 1, 97-123.
  • [60] Sala, D. (2007). Decision support of production planning processes with the use of expert system (in Polish). Doctoral Thesis, AGH, Kraków.
  • [61] Schoon, M. (2005). A short historical overview of the concepts of resilience, vulnerability, and adaptation. Workshop in Political Theory and Policy Analysis Indiana University, Working Paper W05-4, [available at: http://www.indiana.edu/~iupolsci/gradcv/schoon/ historical_critique.pdf].
  • [62] Shafieezadeh, A. & Burden, L. I. (2014). Scenario-based resilience assessment framework for critical infrastructure systems: Case study for seismic resilience of seaports. Reliability Engineering and System Safety 132, 207-219.
  • [63] Shaluf, I. M. (2007). An overview on disasters. Disaster Prevention and Management 16, 5, 687703.
  • [64] Sharda, R., Barr, S. H. & McDonnell, J. C. (1988). Decision support system effectiveness: a review and an empirical test. Management Science 34, 2, 139-159.
  • [65] Sheffi, Y. (2006). Resilience reduces risk. The official Magazine of The Logistics Institute 12, 1, 12-14.
  • [66] Svensson, G. (2002). A conceptual framework of vulnerability in firms’ inbound and outbound logistics flows. International Journal of Physical Distribution and Logistics Management 32, 2, 110-134.
  • [67] Taticchi, P., Garengo, G., Nudurupati, S.S. et al. (2015). A review of decision-support tools and performance measurement and sustainable supply chain management. International Journal of Production Research 53:21, 6473-6494.
  • [68] Tavasszy, L. A. & Van Der Rest, H. (1999). Scenario-Wise Analysis of Transport and Logistics Systems with a SMILE. Selected Proceedings of the 8th World Conference on Transportation Research, 2-16.
  • [69] Tixier, J., Tena-Chollet, F., Dusserre, G. et al. (2012). Development of a GIS-based approach for the vulnerability assessment of a territory exposed to a potential risk. Proceedings of the 43rd ESReDA Seminar on land use planning and riskinformed decision making. Saint-Étienne-du Rouvray, France.
  • [70] Trucco, P., Cagno, E., Ruggeri, F. et al. (2008). A Bayesian Belief Network modelling of organizational factors in risk analysis: A case study in maritime transportation. Reliability Engineering and System Safety 93, 823-834.
  • [71] Vilko, J. P. P., & Hallikas, J. M. (2012). Risk assessment in multimodal supply chains. International Journal of Production Economics 140, 586-595.
  • [72] Website of Interreg-Baltic, [available at: www.interreg-baltic.eu/about-projects.html; accessed 28 April 2016].
  • [73] Yang, Y-Ch. (2011). Risk management of Taiwan’s maritime supply chain security. Safety Science 49, 382-393.
  • [74] Yu, S., Kim, S-W., Oh, Ch-W. et al. (2015). Quantitative assessment of disaster resilience: an empirical study on the importance of post-disaster recovery costs. Reliability Engineering and System Safety 137, 6-17.
  • [75] Zajac, M. & Swieboda, J. (2015). An Unloading Work Model at an Intermodal Terminal. In: Theory and Engineering of Complex Systems and Dependability. Springer International Publishing, 573-582.
  • [76] Zhengmeng, Ch. & Haoxiang, J. (2011). A Brief Review on Decision Support Systems and its Applications. Proc. of International Symposium on IT in Medicine and Education (ITME) 2, 401405.
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-1711dae9-f322-4fc1-a324-31d0d217a6f7
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