2024 : 11 : 21
Fardin Ahmadizar

Fardin Ahmadizar

Academic rank: Professor
ORCID: 0000-0002-8615-9893
Education: PhD.
ScopusId: 23974269900
HIndex:
Faculty: Faculty of Engineering
Address: Department of Industrial Engineering, University of Kurdistan, Sanandaj, Iran
Phone: 08733669162

Research

Title
An equitable and accessible vaccine supply chain network in the epidemic outbreak of COVID-19 under uncertainty
Type
JournalPaper
Keywords
COVID-19 · Vaccine supply chain · Equity · Transshipment policy · Priority · Uncertainty
Year
2023
Journal Journal of Ambient Intelligence and Humanized Computing
DOI
Researchers Mahdieh Shiri ، Fardin Ahmadizar

Abstract

Vaccination is one of the most efficient ways to restrict and control the spread of epidemic outbreaks such as COVID-19. Due to the limited COVID-19 vaccine supply, an equitable and accessible plan should be prepared to cope with. This research focuses on designing a vaccine supply chain while aiming to achieve an equitable and accessible network. We present a novel mathematical formulation that helps to optimize vaccine distribution to inoculate people with various priority levels to achieve an equitable plan. The transshipment strategy is also incorporated into the model to enhance the accessibility of COVID-19 vaccine types between health facilities. The nature of COVID-19 is dynamic over time due to mutations, and the protection level of each vaccine type against this disease is not exact. Besides, complete information about the demand for different vaccine types is not available. Hence, we use Multi-Stage Stochastic Programming as a reliable strategy that is organized to manage stochastic data in a dynamic environment for the first time in the vaccine supply chain network. The scenarios in this approach are generated using a Monte Carlo simulation method, and then a forward scenario reduction technique is conducted to construct a suitable scenario tree. The practicality and capability of the model are shown in a real-life case of Iran. The results show that the performance of the Multi-Stage Stochastic Programming is significantly improved compared with the two-stage stochastic programming regarding the total cost of the vaccine supply chain and the number of the shortage units.