Secure Digital Voting System Based on Blockchain Technology

Author:

Khan Kashif Mehboob1,Arshad Junaid2,Khan Muhammad Mubashir1

Affiliation:

1. NED University of Engineering and Technology, Karachi, Pakistan

2. The University of West London, London, UK

Abstract

Electronic voting or e-voting has been used in varying forms since 1970s with fundamental benefits over paper-based systems such as increased efficiency and reduced errors. However, challenges remain to the achieving of wide spread adoption of such systems, especially with respect to improving their resilience against potential faults. Blockchain is a disruptive technology of the current era and promises to improve the overall resilience of e-voting systems. This article presents an effort to leverage benefits of blockchain such as cryptographic foundations and transparency to achieve an effective scheme for e-voting. The proposed scheme conforms to the fundamental requirements for e-voting schemes and achieves end-to-end verifiability. The article presents details of the proposed e-voting scheme along with its implementation using Multichain platform. The article also presents an in-depth evaluation of the scheme which successfully demonstrates its effectiveness to achieve an end-to-end verifiable e-voting scheme.

Publisher

IGI Global

Subject

Computer Networks and Communications,Hardware and Architecture,General Social Sciences,Software

Reference26 articles.

1. Adida, B. (2008). Helios: Web-based open-audit voting. In Proceedings of the 17th Conference on Security Symposium SS’08, Berkeley, CA (pp. 335-348). USENIX Association.

2. Scratch & vote

3. Bell, S., Benaloh, J., Byrne, M. D., Debeauvoir, D., Eakin, B., Kortum, P., . . . Winn, M. (2013). Star-vote: A secure, transparent, auditable, and reliable voting system. In 2013 Electronic Voting Technology Workshop/Workshop on Trustworthy Elections (EVT/WOTE 13), Washington, D.C. USENIX Association.

4. Bingo Voting: Secure and Coercion-Free Voting Using a Trusted Random Number Generator

5. Untraceable electronic mail, return addresses, and digital pseudonym’;D.Chaum;Communications of the ACM,1981

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