Abstract

Our research is aimed at developing a quantitative approach for assessing predicted supply chain resilience based on structural evolution against random supply disruptions. The paper begins by identifying a conceptual supply chain resilience model, which extends the concept of the disaster resilience triangle by adding the third metric – redundancy. Based on this conceptual model, a measurement model considering structural evolution is proposed as an analytic measure of supply chain resilience. The structural evolution mechanism results from the two fundamental abilities according to cell resilience theory, i.e. the self-adaption ability and the self-recovery ability. Finally, simulation is adopted to demonstrate the measurement model of predicted supply chain resilience.

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