Ordering COVID-19 vaccines for social welfare with information updating: optimal dynamic order policies and vaccine selection in the digital age
Ordering COVID-19 vaccines for social welfare with information updating: optimal dynamic order policies and vaccine selection in the digital age
In the digital age, operations can be improved by a wise use of information and technological tools. During the COVID-19 pandemic, governments faced various choices of vaccines possessing different efficacy and availability levels at different time points. In this article, we consider a two-stage vaccine ordering problem of a government from a first and only supplier in the first stage, and either the same supplier or a new second supplier in the second stage. Between the two stages, potential demand information for the vaccine is collected to update the forecast. Using dynamic programming, we derive the government’s optimal vaccine ordering policy. We find that the government should select its vaccine supplier based on the disease’s infection rate in the society. When the infection rate is low, the government should order nothing at the first stage and order from the supplier with a higher efficacy level at the second stage. When the disease’s infection rate is high, the government should order vaccines at the first stage and switch to the other supplier with a lower efficacy level at the second stage. We extend our model to examine (i) the value of blockchain adoption and (ii) the impact of vaccines’ side effects.
COVID-19, Vaccine supply chain, blockchain, information updating, social welfare, two-stage ordering
Xu, Xiaoyan
98b815b6-5ac4-42cf-8429-da5cb889ab8c
Sethi, Suresh P.
660a32de-3183-48c2-b55d-e8c4456db3da
Chung, Sai-Ho
70dcb405-2750-4d44-a6b8-49b4c9a6d523
Choi, Tsan-Ming
594d42c1-0264-4e78-afc3-aa6076284cf4
2023
Xu, Xiaoyan
98b815b6-5ac4-42cf-8429-da5cb889ab8c
Sethi, Suresh P.
660a32de-3183-48c2-b55d-e8c4456db3da
Chung, Sai-Ho
70dcb405-2750-4d44-a6b8-49b4c9a6d523
Choi, Tsan-Ming
594d42c1-0264-4e78-afc3-aa6076284cf4
Xu, Xiaoyan, Sethi, Suresh P., Chung, Sai-Ho and Choi, Tsan-Ming
(2023)
Ordering COVID-19 vaccines for social welfare with information updating: optimal dynamic order policies and vaccine selection in the digital age.
IISE Transactions.
(doi:10.1080/24725854.2023.2204329).
Abstract
In the digital age, operations can be improved by a wise use of information and technological tools. During the COVID-19 pandemic, governments faced various choices of vaccines possessing different efficacy and availability levels at different time points. In this article, we consider a two-stage vaccine ordering problem of a government from a first and only supplier in the first stage, and either the same supplier or a new second supplier in the second stage. Between the two stages, potential demand information for the vaccine is collected to update the forecast. Using dynamic programming, we derive the government’s optimal vaccine ordering policy. We find that the government should select its vaccine supplier based on the disease’s infection rate in the society. When the infection rate is low, the government should order nothing at the first stage and order from the supplier with a higher efficacy level at the second stage. When the disease’s infection rate is high, the government should order vaccines at the first stage and switch to the other supplier with a lower efficacy level at the second stage. We extend our model to examine (i) the value of blockchain adoption and (ii) the impact of vaccines’ side effects.
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More information
Accepted/In Press date: 2 April 2023
e-pub ahead of print date: 5 July 2023
Published date: 2023
Keywords:
COVID-19, Vaccine supply chain, blockchain, information updating, social welfare, two-stage ordering
Identifiers
Local EPrints ID: 486903
URI: http://eprints.soton.ac.uk/id/eprint/486903
ISSN: 2472-5862
PURE UUID: eb70a2eb-1cfe-40eb-921a-c32715eb9f51
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Date deposited: 08 Feb 2024 17:36
Last modified: 12 Oct 2024 03:01
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Contributors
Author:
Xiaoyan Xu
Author:
Suresh P. Sethi
Author:
Sai-Ho Chung
Author:
Tsan-Ming Choi
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