Ripple effect quantification by supplier risk exposure assessment

Supply chain (SC) disruptions are considered events that temporarily change the structural design and operational policies of SCs with significant resilience implications. The SC dynamics and complexity drive such disruptions beyond local event node boundaries to affect large parts of the SC. The propagation of a disruption through a SC and its associated impact is called the ripple effect. Previous approaches to ripple effect modelling have mainly focused on estimating the likelihood of a disruption; our study looks at the disruption consequences. We develop a new model to assess the ripple effect of a supplier disruption, based on possible maximum loss. Our risk exposure model quantifies the ripple effect, comprehensively combining features such as financial, customer, and operational performance impacts, consideration of multi-echelon inventory, disruption duration, and supplier importance. The ripple effect quantification is validated with simulations using actual company data. The findings suggest that the model can be of value in revealing latent high-risk supplier relations, and in prioritising risk mitigation efforts when probability estimations are difficult. The performance indicators proposed can be used by managers to analyse disruption propagation impact and to identify the set of most critical suppliers to be included in the disruption risk analysis.

[1]  Maruf Hossan Chowdhury,et al.  Supply chain resilience: Conceptualization and scale development using dynamic capability theory , 2017 .

[2]  Rahul C. Basole,et al.  Supply Network Structure, Visibility, and Risk Diffusion: A Computational Approach , 2014, Decis. Sci..

[3]  Dmitry Ivanov,et al.  Resilient supplier selection and optimal order allocation under disruption risks , 2019, International Journal of Production Economics.

[4]  M. Parast,et al.  A review of the literature on the principles of enterprise and supply chain resilience: Major findings and directions for future research , 2016 .

[5]  Benjamin B. M. Shao,et al.  A data-analytics approach to identifying hidden critical suppliers in supply networks: Development of nexus supplier index , 2018, Decis. Support Syst..

[6]  Stephan M. Wagner,et al.  A comparison of supply chain vulnerability indices for different categories of firms , 2012 .

[7]  Zuo-Jun Max Shen,et al.  Reliable Facility Location Design Under Uncertain Correlated Disruptions , 2015, Manuf. Serv. Oper. Manag..

[8]  Edward J.S. Hearnshaw,et al.  A complex network approach to supply chain network theory , 2013 .

[9]  Dmitry Ivanov,et al.  Optimization of network redundancy and contingency planning in sustainable and resilient supply chain resource management under conditions of structural dynamics , 2019, Annals of Operations Research.

[10]  Stephan M. Wagner,et al.  An empirical investigation into supply chain vulnerability , 2006 .

[11]  Christopher S. Tang Perspectives in supply chain risk management , 2006 .

[12]  Scott J. Grawe,et al.  Firm's resilience to supply chain disruptions: Scale development and empirical examination , 2015 .

[13]  Kathryn E. Stecke,et al.  Mitigating disruptions in a multi-echelon supply chain using adaptive ordering , 2017 .

[14]  J. Teugels,et al.  Encyclopedia of actuarial science , 2004 .

[15]  Boris V. Sokolov,et al.  Optimal distribution (re)planning in a centralized multi-stage supply network under conditions of the ripple effect and structure dynamics , 2014, Eur. J. Oper. Res..

[16]  Dmitry Ivanov,et al.  Simulation-based ripple effect modelling in the supply chain , 2017, Int. J. Prod. Res..

[17]  Dmitry Ivanov,et al.  A new resilience measure for supply networks with the ripple effect considerations: a Bayesian network approach , 2019, Ann. Oper. Res..

[18]  Alexandre Dolgui,et al.  Disruption-driven supply chain (re)-planning and performance impact assessment with consideration of pro-active and recovery policies , 2016 .

[19]  Alexandre Dolgui,et al.  Literature review on disruption recovery in the supply chain* , 2017, Int. J. Prod. Res..

[20]  P. Davidson Response [Is Probability Theory Relevant for Uncertainty? A Post Keynesian Perspective] , 1991 .

[21]  Kevin P. Scheibe,et al.  Supply chain disruption propagation: a systemic risk and normal accident theory perspective , 2018, Int. J. Prod. Res..

[22]  D. Ellsberg Decision, probability, and utility: Risk, ambiguity, and the Savage axioms , 1961 .

[23]  Alexandre Dolgui,et al.  Structural quantification of the ripple effect in the supply chain , 2016 .

[24]  Xueping Li,et al.  Supply chain resilience for single and multiple sourcing in the presence of disruption risks , 2018, Int. J. Prod. Res..

[25]  Mark S. Daskin,et al.  Facility Location Decisions with Random Disruptions and Imperfect Estimation , 2013, Manuf. Serv. Oper. Manag..

[26]  Zhimin Xi,et al.  A Unified Framework for Evaluating Supply Chain Reliability and Resilience , 2017, IEEE Transactions on Reliability.

[27]  Amanda J. Schmitt,et al.  A Quantitative Analysis of Disruption Risk in a Multi-Echelon Supply Chain , 2011 .

[28]  Dmitry Ivanov,et al.  Coordination of production and ordering policies under capacity disruption and product write-off risk: an analytical study with real-data based simulations of a fast moving consumer goods company , 2017, Annals of Operations Research.

[29]  Alexandre Dolgui,et al.  Review of quantitative methods for supply chain resilience analysis , 2019, Transportation Research Part E: Logistics and Transportation Review.

[30]  Enzo Morosini Frazzon,et al.  A supervised machine learning approach to data-driven simulation of resilient supplier selection in digital manufacturing , 2019, Int. J. Inf. Manag..

[31]  D. Zweig,et al.  Managing the "invisibles". , 2014, Harvard business review.

[32]  Mohamed Mohamed Naim,et al.  A control engineering approach to the assessment of supply chain resilience , 2012 .

[33]  Alexandre Dolgui,et al.  Ripple effect modelling of supplier disruption: integrated Markov chain and dynamic Bayesian network approach , 2019, Int. J. Prod. Res..

[34]  Dmitry Ivanov,et al.  A real-option approach to mitigate disruption risk in the supply chain , 2019, Omega.

[35]  Ralf W. Seifert,et al.  Roles of inventory and reserve capacity in mitigating supply chain disruption risk , 2018, Int. J. Prod. Res..

[36]  Lara Khansa,et al.  Characterizing multi-event disaster resilience , 2014, Computers & Operations Research.

[37]  Dirk P. Kroese,et al.  Rare-event probability estimation with conditional Monte Carlo , 2011, Ann. Oper. Res..

[38]  S. Talluri,et al.  Disruptions in Supply Networks: A Probabilistic Risk Assessment Approach , 2015 .

[39]  Steven A. Melnyk,et al.  Supply chain risk and resilience: theory building through structured experiments and simulation , 2018, Int. J. Prod. Res..

[40]  William Ho,et al.  Supply chain risk management: a literature review , 2015 .

[41]  Angappa Gunasekaran,et al.  Antecedents of Resilient Supply Chains: An Empirical Study , 2019, IEEE Transactions on Engineering Management.

[42]  William Ho,et al.  Models for supplier selection and risk mitigation: a holistic approach , 2018, Int. J. Prod. Res..

[43]  Manoj Kumar Tiwari,et al.  Bayesian network modelling for supply chain risk propagation , 2018, Int. J. Prod. Res..

[44]  Ivanov,et al.  Handbook of Ripple Effects in the Supply Chain , 2019, International Series in Operations Research & Management Science.

[45]  Tadeusz Sawik,et al.  Two-period vs. multi-period model for supply chain disruption management , 2018, Int. J. Prod. Res..

[46]  Kash Barker,et al.  A Bayesian network model for resilience-based supplier selection , 2016 .

[47]  David Simchi-Levi,et al.  Disruption Risk Mitigation in Supply Chains - The Risk Exposure Index Revisited , 2016, Oper. Res..

[48]  Tadeusz Sawik,et al.  A portfolio approach to supply chain disruption management , 2017, Int. J. Prod. Res..

[49]  KwangSup Shin,et al.  Evaluation mechanism for structural robustness of supply chain considering disruption propagation , 2016 .

[50]  Hakan Yildiz,et al.  Reliable Supply Chain Network Design , 2016, Decis. Sci..

[51]  Boris Sokolov,et al.  Minimization of disruption-related return flows in the supply chain , 2017 .

[52]  Alexandre Dolgui,et al.  Ripple effect in the supply chain: an analysis and recent literature , 2018, Int. J. Prod. Res..

[53]  Dmitry A. Ivanov,et al.  Disruption tails and revival policies: A simulation analysis of supply chain design and production-ordering systems in the recovery and post-disruption periods , 2019, Comput. Ind. Eng..

[54]  Kevin P. Scheibe,et al.  Supply chain vulnerability assessment: A network based visualization and clustering analysis approach , 2018 .

[55]  Michael O'Sullivan,et al.  Robust and resilient strategies for managing supply disruptions in an agribusiness supply chain , 2017 .

[56]  Hans Ehm,et al.  Simulating recovery strategies to enhance the resilience of a semiconductor supply network , 2017, 2017 Winter Simulation Conference (WSC).

[57]  Luk N. Van Wassenhove,et al.  Supply Chain Tsunamis: Research on Low‐Probability, High‐Impact Disruptions , 2018 .

[58]  D. Ivanov Revealing interfaces of supply chain resilience and sustainability: a simulation study , 2018, Int. J. Prod. Res..

[59]  Kamil J. Mizgier Global sensitivity analysis and aggregation of risk in multi-product supply chain networks , 2017, Int. J. Prod. Res..

[60]  Mark Stevenson,et al.  Supply chain resilience: definition, review and theoretical foundations for further study , 2015 .

[61]  D. Ivanov,et al.  Global Supply Chain and Operations Management , 2021, Springer Texts in Business and Economics.

[62]  Alexandre Dolgui,et al.  Hybrid Fuzzy-Probabilistic Approach to Supply Chain Resilience Assessment , 2018, IEEE Transactions on Engineering Management.

[63]  Tsan-Ming Choi,et al.  Optimal Bi-Objective Redundancy Allocation for Systems Reliability and Risk Management , 2016, IEEE Transactions on Cybernetics.

[64]  Alexandre Dolgui,et al.  Low-Certainty-Need (LCN) supply chains: a new perspective in managing disruption risks and resilience , 2018, Int. J. Prod. Res..

[65]  Alexandre Dolgui,et al.  Does the ripple effect influence the bullwhip effect? An integrated analysis of structural and operational dynamics in the supply chain† , 2019, Int. J. Prod. Res..

[66]  Sebastián Lozano,et al.  Assessing supply chain robustness to links failure , 2018, Int. J. Prod. Res..

[67]  D. Ivanov Structural Dynamics and Resilience in Supply Chain Risk Management , 2017 .

[68]  Andreas Norrman,et al.  Ericsson’s Proactive Supply Chain Risk Management-approach After a Serious Supplier Accident , 2004 .

[69]  Yanfeng Ouyang,et al.  Joint Inventory-Location Problem Under Risk of Probabilistic Facility Disruptions , 2011 .

[70]  David Simchi-Levi,et al.  Identifying Risks and Mitigating Disruptions in the Automotive Supply Chain , 2015, Interfaces.