A mathematical programming approach for equitable COVID-19 vaccine distribution in developing countries

Tavana, Madjid; Govindan, Kannan; Nasr, Arash Khalili; Heidary, Mohammad Saeed; Mina, Hassan

doi:10.1007/s10479-021-04130-z

Cited by 51 publications

(31 citation statements)

References 24 publications

(41 reference statements)

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“…These are difficult questions to answer due to the inadequate and uncertain supply of vaccines especially in the case of an unexpected outbreak and the existence of various competing priority groups. Since the supply of the vaccine is limited, it is critical for governments to prioritize and allocate a vaccine based on the vulnerability of certain populations groups ( Tavana et al, 2021 ). Brandeau et al (2003) posit that a range of factors such as the infection prevalence and incidence, population size, and characteristics of prevention programs imposed by governments affect the optimal resource allocation in a pandemic.…”

Section: Literature Reviewmentioning

confidence: 99%

Multi-period vaccine allocation model in a pandemic: A case study of COVID-19 in Australia

Fadaki

Abareshi

Far

et al. 2022

Transportation Research Part E: Logistics and Transportation Re

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Section: Literature Reviewmentioning

confidence: 99%

Multi-period vaccine allocation model in a pandemic: A case study of COVID-19 in Australia

Fadaki

Abareshi

Far

et al. 2022

Transportation Research Part E: Logistics and Transportation Re

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“… – ✓ – – – – ✓ – ✓ USA Mathematical model (linear programming) Sazvar et al (2021) To understand the application of capacity planning in terms of redundancy and design a supply chain network that is resilient toward the demand side. – – – ✓ – ✓ ✓ ✓ – Iran Mathematical model (robust fuzzy optimisation) Shim (2021) To determine optimal vaccine allocation for minimising infections, deaths, and years of life lost while accounting for population factors – – – – – – – – ✓ South Korea Mathematical model (age-structured dynamic model) Sinha et al (2021) To identify conditions under which a strategic inventory reserve policy cannot be practically implemented to meet service level targets ✓ ✓ ✓ – – – – ✓ ✓ India Mathematical model (game theory) Tavana et al (2021) To develop equitable COVID-19 vaccine distribution in developing countries. ✓ ✓ – – …”

Section: Literature Reviewmentioning

confidence: 99%

“…For example, while both Pfizer–Biontech (known as Pfizer) and AstraZeneca–Oxford (known as AstraZeneca) are COVID-19 vaccines with two doses that must be given in different time windows, Johnson & Johnson’s Janssen (known as J&J) vaccine is comprised of only one dose. The differences in transportation and storage, efficiency, and costs also vary depending on which vaccine has priority ( Abbasi et al, 2020 , Tavana et al, 2021 ). Therefore, it is imperative to develop distribution mechanisms to respond effectively and efficiently to such challenges and mitigate likely disparities.…”

Section: Introductionmentioning

confidence: 99%

COVID-19 vaccine distribution planning using a congested queuing system—A real case from Australia

Jahani¹,

Chaleshtori²,

Khaksar³

et al. 2022

Transportation Research Part E: Logistics and Transportation Re

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“…Similarly, Nagurney ( 2021 ) used the same approach to develop a framework to capture the labour constraints in fresh produce products during this pandemic, and Ivanov and Dolgui ( 2020b ) introduced the concept of intertwined supply network (ISN), suggesting that major SC disruptions like the COVID-19 pandemic require resistance at the scale of viability. A mixed-integer linear modelling approach was used to analyze the impact of this pandemic on a drug supply network (Lozano-Diez et al, 2020 ), to provide an equitable vaccine distribution framework in developing countries (Tavana et al, 2021 ), and to reconfigure food grain SC networks by considering government guidelines (D. Sharma et al, 2021 ). A multi-objective mixed-integer linear programming modelling was also used to develop a framework for sustainable, responsive, and resilient mixed SC networks (Vali-Siar & Roghanian, 2022 ).…”

Section: Research On Covid-19 In Commercial Supply Chainsmentioning

confidence: 99%

A mathematical model for managing the multi-dimensional impacts of the COVID-19 pandemic in supply chain of a high-demand item

et al. 2022

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The COVID-19 pandemic has wreaked havoc across supply chain (SC) operations worldwide. Specifically, decisions on the recovery planning are subject to multi-dimensional uncertainty stemming from singular and correlated disruptions in demand, supply, and production capacities. This is a new and understudied research area. In this study, we examine, SC recovery for high-demand items (e.g., hand sanitizer and face masks). We first developed a stochastic mathematical model to optimise recovery for a three-stage SC exposed to the multi-dimensional impacts of COVID-19 pandemic. This allows to generalize a novel problem setting with simultaneous demand, supply, and capacity uncertainty in a multi-stage SC recovery context. We then developed a chance-constrained programming approach and present in this article a new and enhanced multi-operator differential evolution variant-based solution approach to solve our model. With the optimisation, we sought to understand the impact of different recovery strategies on SC profitability as well as identify optimal recovery plans. Through extensive numerical experiments, we demonstrated capability towards efficiently solving both small- and large-scale SC recovery problems. We tested, evaluated, and analyzed different recovery strategies, scenarios, and problem scales to validate our approach. Ultimately, the study provides a useful tool to optimise reactive adaptation strategies related to how and when SC recovery operations should be deployed during a pandemic. This study contributes to literature through development of a unique problem setting with multi-dimensional uncertainty impacts for SC recovery, as well as an efficient solution approach for solution of both small- and large-scale SC recovery problems. Relevant decision-makers can use the findings of this research to select the most efficient SC recovery plan under pandemic conditions and to determine the timing of its deployment.

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A mathematical programming approach for equitable COVID-19 vaccine distribution in developing countries

Cited by 51 publications

References 24 publications

Multi-period vaccine allocation model in a pandemic: A case study of COVID-19 in Australia

Multi-period vaccine allocation model in a pandemic: A case study of COVID-19 in Australia

COVID-19 vaccine distribution planning using a congested queuing system—A real case from Australia

A mathematical model for managing the multi-dimensional impacts of the COVID-19 pandemic in supply chain of a high-demand item

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