The Blockchain Revolution: Paradigm Shifts in Traditional Voting Practices

Perhaps the most advanced application of the distributed ledger technology (DLT), the Blockchain is a decentralized system that is known to store immutable metadata with the use of robust cryptographic hashes and consensus mechanisms. The very foundation of the Blockchain is the establishment of trust-less transactions in peer-to-peer networks. Having been deemed to set off a whirlwind in Industry 4.0 as we know it and starting out with the groundbreaking Bitcoin, this relatively new technology is on the way to prove that it can find applications in almost every imaginable sector. While most people focus only on cryptocurrencies; this disruptive technology, in fact, offers utilities to many administrative operations, fintech procedures, and everyday services which could earlier only be done offline and/or in person, that can now be safely moved to the Internet as Software as a Service (SaaS) models. What makes Blockchain a powerful tool for digitalizing everyday facilities is the introduction of smart contracts, as brought forward foremost by the Ethereum platform. Considering today‟s technology, Blockchain may create one of the most prominent alternatives to traditional voting in terms of security, consistency and speed. The Blockchain technology, fortified by Smart Contracts, enables enhanced data verifiability and lowered costs while maintaining the openness and transparency of the voting process. The anonymity of voters, the security of ballot transmission and the veracity of votes during the billing phase are the most fundamental requirements for voting. In this paper, a potential use case of Blockchain, an E-Voting protocol, is proposed, that utilizes the Blockchain as a transparent ballot box to cast votes. General Terms Blockchain E-Voting Decentralized Application

[1]  Thomas Heinz Meitinger,et al.  Smart Contracts , 2017, Informatik-Spektrum.

[2]  David Chaum,et al.  Untraceable electronic mail, return addresses, and digital pseudonyms , 1981, CACM.

[3]  Ivan Kotuliak,et al.  Blockchain E-Voting Done Right: Privacy and Transparency with Public Blockchain , 2019, 2019 IEEE 10th International Conference on Software Engineering and Service Science (ICSESS).

[4]  Santosh Kumar Pani,et al.  Reshaping IOT Through Blockchain , 2019, 2019 Third International conference on I-SMAC (IoT in Social, Mobile, Analytics and Cloud) (I-SMAC).

[5]  Feng Hao,et al.  Real-world electronic voting : design, analysis and deployment , 2016 .

[6]  Hitesh Tewari,et al.  The Future of E-Voting , 2017 .

[7]  Dejan Vujičić,et al.  Blockchain technology, bitcoin, and Ethereum: A brief overview , 2018, 2018 17th International Symposium INFOTEH-JAHORINA (INFOTEH).

[8]  J. Chandra Priya,et al.  Disseminated and Decentred Blockchain secured Balloting: apropos to India , 2018, 2018 Tenth International Conference on Advanced Computing (ICoAC).

[9]  Nir Kshetri,et al.  Blockchain-Enabled E-Voting , 2018, IEEE Software.

[10]  Daniel Joseph,et al.  SHARVOT: Secret SHARe-Based VOTing on the Blockchain , 2018, 2018 IEEE/ACM 1st International Workshop on Emerging Trends in Software Engineering for Blockchain (WETSEB).

[11]  K. Curran E-Voting on the Blockchain , 2018, The Journal of the British Blockchain Association.

[12]  Umut Can Çabuk,et al.  A Survey on Feasibility and Suitability of Blockchain Techniques for the E-Voting Systems , 2020, ArXiv.

[13]  Jingyu Zhang,et al.  A Review on Blockchain-Based Systems and Applications , 2019, IOV.

[14]  Ishaku Liti Awalu,et al.  Development of a Distributed Blockchain eVoting System , 2019, ICEME 2019.

[15]  B. Gurstein E-Democracy and Information Society , 2019, 2019 Sixth International Conference on eDemocracy & eGovernment (ICEDEG).