VaccineChain: A checkpoint assisted scalable blockchain based secure vaccine supply chain with selective revocation

Rahul Mishra; Dharavath Ramesh; Damodar Reddy Edla; Lianyong Qi

doi:10.1016/j.jii.2023.100485

VaccineChain: A checkpoint assisted scalable blockchain based secure vaccine supply chain with selective revocation

J Ind Inf Integr. 2023 Jun 20:100485. doi: 10.1016/j.jii.2023.100485. Online ahead of print.

Authors

Rahul Mishra¹, Dharavath Ramesh¹, Damodar Reddy Edla², Lianyong Qi³

Affiliations

¹ Indian Institute of Technology (ISM), Dhanbad, 826004, India.
² National Institute of Technology, Farmagudi, Goa 403401, India.
³ Qufu Normal University (Rizhao Campus), China.

Abstract

In the present era of the pandemic, vaccination is necessary to prevent severe infectious diseases, i.e., COVID-19. Specifically, vaccine safety is strongly linked to global health and security. However, the main concerns regarding vaccine record forgery and counterfeiting of vaccines are still common in the traditional vaccine supply chains. The conventional vaccine supply chains do not have proper authentication among all supply chain entities. Blockchain technology is an excellent contender to resolve the issues mentioned above. Although, blockchain based vaccine supply chains can potentially satisfy the objectives and functions of the next-generation supply chain model. However, its integration with the supply chain model is still constrained by substantial scalability and security issues. So, the current blockchain technology with traditional Proof-of-Work (PoW) consensus is incompatible with the next-generation vaccine supply chain framework. This paper introduces a model named "VaccineChain" - a novel checkpoint-assisted scalable blockchain based secure vaccine supply chain. VaccineChain guarantees the complete integrity and immutability of vaccine supply records to combat counterfeited vaccines over the supply chain. The dynamic consensus algorithm with various validating difficulty levels supports the efficient scalability of VaccineChain. Moreover, VaccineChain includes anonymous authentication among entities to provide selective revocation. This work also consists of a use case example of a secure vaccine supply chain using checkpoint assisted scalable blockchain with customized transaction generation-rule and smart contracts to demonstrate the application of VaccineChain. The comprehensive security analysis with standard theoretical proofs ensures the computational infeasibility of VaccineChain. Further, the detailed performance analysis with test simulations shows the practicability of VaccineChain.

Keywords: Blockchain; Dynamic Proof-of-Work (dPoW); Selective revocation; Vaccine supply chain.