Remotegrity: Design and Use of an End-to-End Verifiable Remote Voting System

Election could be a important event during a trendy democracy however massive sections of society round the world don’t trust their election system that is major concern for the democracy. Even the world’s largest democracies like Republic of India, us, and Japan still suffer from a blemished legal system. Vote rigging, hacking of the EVM (Electronic vote machine), election manipulation, and booth capturing square measure the key problems within the current electoral system. during this system, we tend to square measure work the problems|the problems within the election vote systems and attempting to propose the E-voting model which might resolve these issues. The system can highlight a number of the popular blockchain frameworks that provide blockchain as a service and associated electronic E-voting system that is predicated on blockchain that addresses all limitations severally, it additionally preserve participant’s obscurity whereas still being hospitable public examination. Building Associate in Nursing electronic electoral system that satisfies the legal necessities of legislators has been a challenge for an extended time. Distributed ledger technologies is Associate in Nursing exciting technological advancement within the info technology world. Blockchain technologies supply Associate in Nursing infinite vary of applications cashing in on sharing economies. Blockchain could be a unquiet technology of current era and guarantees to enhance the resilience of e-voting systems. this technique presents a shot to leverage edges of blockchain like cryptological foundations and transparency to attain an efficient theme for e-voting. The projected theme conforms to the elemental necessities for e-voting schemes and achieves end-to-end verifiability. The system presents in-depth analysis of the theme that with success demonstrates its effectiveness to attain Associate in Nursing end-to-end verifiable e-voting theme.

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EVIV: An end-to-end verifiable Internet voting system

Computers & Security ◽

10.1016/j.cose.2012.10.001 ◽

2013 ◽

Vol 32 ◽

pp. 170-191 ◽

Cited By ~ 12

Author(s):

Rui Joaquim ◽

Paulo Ferreira ◽

Carlos Ribeiro

Keyword(s):

Internet Voting ◽

Voting System ◽

End To End

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D-DEMOS: A Distributed, End-to-End Verifiable, Internet Voting System

2016 IEEE 36th International Conference on Distributed Computing Systems (ICDCS) ◽

10.1109/icdcs.2016.56 ◽

2016 ◽

Cited By ~ 8

Author(s):

Nikos Chondros ◽

Bingsheng Zhang ◽

Thomas Zacharias ◽

Panos Diamantopoulos ◽

Stathis Maneas ◽

...

Keyword(s):

Internet Voting ◽

Voting System ◽

End To End

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Online Voting System - Powered by Blockchain

International Journal for Modern Trends in Science and Technology - RTT2020 ◽

10.46501/ijmtst070116 ◽

2021 ◽

Vol 7 (01) ◽

pp. 73-76

Author(s):

Vaibhav Sinha and Sachin Garg

Keyword(s):

Electronic Voting ◽

Disruptive Technology ◽

Voting Systems ◽

Widespread Adoption ◽

Effective Scheme ◽

Voting System ◽

Voting Scheme ◽

End To End ◽

Online Voting

Electronic voting or e-voting has been used in varying forms since the 1970s with fundamental benefits over paper based systems such as increased efficiency and reduced errors. However, there remain challenges to achieve widespread 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 paper 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 paper presents details of the proposed e-voting scheme along with its implementation using the Multichain platform. The paper presents in-depth evaluation of the scheme which successfully demonstrates its effectiveness to achieve an end-to-end verifiable e-voting scheme.

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An efficient end to end verifiable voting system

Revue Africaine de la Recherche en Informatique et Mathématiques Appliquées ◽

10.46298/arima.6442 ◽

2021 ◽

Vol Volume 33 - 2020 - Special... ◽

Author(s):

Léonie Tamo Mamtio ◽

Gilbert Tindo

Keyword(s):

Voter Turnout ◽

Fault Tolerant ◽

Research Problem ◽

Third Party ◽

Electronic Voting ◽

Bulletin Board ◽

Voting Systems ◽

Related Information ◽

Voting System ◽

End To End

Electronic voting systems have become a powerful technology for the improvement of democracy by reducing the cost of elections, increasing voter turnout and even allowing voters to directly check the entire electoral process. End-to-end (E2E) verifiability has been widely identified as a critical property for the adoption of such voting systems for electoral procedures. Moreover, one of the pillars of any vote, apart from the secret of the vote and the integrity of the result, lies in the transparency of the process, the possibility for the voters "to understand the underlying system" without resorting to the competences techniques. The end-to-end verifiable electronic voting systems proposed in the literature do not always guarantee it because they require additional configuration hypotheses, for example the existence of a trusted third party as a random source or the existence of a random beacon. Hence, building a reliable verifiable end-to-end voting system offering confidentiality and integrity remains an open research problem. In this work, we are presenting a new verifiable end-to-end electronic voting system requiring only the existence of a coherent voting board, fault-tolerant, which stores all election-related information and allows any party as well as voters to read and verify the entire election process. The property of our system is information guaranteed given the existence of the bulletin board, the involvement of the voters and the political parties in the process. This involvement does not compromise the confidentiality nor integrity of the elections and does not require cryptographic operations on the voters account. Les systèmes de vote électronique sont devenus une technologie puissante pour amé-liorer la démocratie en réduisant le coût des élections, en augmentant la participation des électeurs et en permettant même aux électeurs de vérifier directement l'ensemble de la procédure électorale. Cependant, la vérification de bout en bout (E2E) a été largement identifiée comme une propriété critique pour l'adoption de tels systèmes de vote en réel pour des procédures électorales. Par ailleurs, l'un des piliers de tout scrutin, outre le secret du vote et l'intégrité du résultat, réside dans la trans-parence du processus, la possibilité pour les électeurs "de comprendre le système sous-jacent" sans avoir recours aux compétences techniques. Les systèmes de vote électronique vérifiables de bout en bout proposés dans la littérature ne le garantissent pas toujours car ils nécessitent des hypothèses de configuration supplémentaires par exemple l'existence d'un tiers de confiance comme source de hasard, l'existence d'une balise aléatoire. Ainsi, construire un système de vote vérifiable de bout en bout fiable offrant la confidentialité et l'intégrité reste un problème de recherche ouvert. Dans ce tra-vail, nous présentons un nouveau système de vote électronique vérifiable de bout en bout nécessitant uniquement l'existence d'un babillard de vote cohérent, tolérant aux pannes, qui stocke toutes les in-formations relatives aux élections et permet à tout parti ainsi qu'aux électeurs de lire et vérifier le processus d'élection complet. La propriété de vérification de bout en bout de notre système est une information garantie compte tenu de l'existence du babillard, de l'implication des électeurs et des par-tis politique dans le processus. Cette implication ne compromet ni la confidentialité ni l'intégrité des élections et ne nécessite pas d'opérations cryptographiques pour le compte de l'électeur.

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A Secure End-to-End Verifiable E-Voting System Using Zero-Knowledge Proof and Blockchain

Indian Statistical Institute Series - A Tribute to the Legend of Professor C. R. Rao ◽

10.1007/978-981-33-6991-7_6 ◽

2021 ◽

pp. 45-48

Author(s):

Somnath Panja ◽

Bimal Roy

Keyword(s):

Zero Knowledge ◽

Voting System ◽

End To End ◽

Zero Knowledge Proof

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A Secure End-to-End Verifiable Internet-Voting System Using Identity-Based Blind Signature

IEEE Systems Journal ◽

10.1109/jsyst.2019.2940474 ◽

2020 ◽

Vol 14 (2) ◽

pp. 2032-2041

Author(s):

Mahender Kumar ◽

Satish Chand ◽

C. P. Katti

Keyword(s):

Blind Signature ◽

Internet Voting ◽

Voting System ◽

Identity Based ◽

End To End

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Provotum: A Blockchain-based and End-to-end Verifiable Remote Electronic Voting System

2020 IEEE 45th Conference on Local Computer Networks (LCN) ◽

10.1109/lcn48667.2020.9314815 ◽

2020 ◽

Author(s):

Christian Killer ◽

Bruno Rodrigues ◽

Eder John Scheid ◽

Muriel Franco ◽

Moritz Eck ◽

...

Keyword(s):

Electronic Voting ◽

Voting System ◽

End To End ◽

Electronic Voting System

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Can Voters Tell When Their Voting Method Is Secure? Effects of End-to-end Security and Security Theater on Perceptions of Voting Systems

Proceedings of the Human Factors and Ergonomics Society Annual Meeting ◽

10.1177/1541931213601285 ◽

2016 ◽

Vol 60 (1) ◽

pp. 1220-1224

Author(s):

Claudia Ziegler Acemyan ◽

Philip Kortum

Keyword(s):

Undergraduate Students ◽

System Security ◽

Voting Systems ◽

Voting System ◽

Rice University ◽

Standard Paper ◽

End To End ◽

Study Participants ◽

University Undergraduate Students ◽

Voting Method

The aim of this study was to understand how voters’ perceptions of voting system security might be impacted by the addition of actual security features and fake security features (i.e., security theater) to a voting method. In the context of voting, positive perceptions of security might be more important than security itself because voters must feel voting systems are safe enough to keep their votes secure and anonymous, or else they might choose to avoid participating in an election—potentially impacting election outcomes. To investigate this problem, 90 Rice University undergraduate students participated in a mock election using one of three systems, each associated with differing levels of security: a standard paper ballot, a paper ballot enhanced by end-to-end (e2e) security mechanisms, and a paper ballot that included fake security mechanisms to give the feeling of enhanced security without actually making the system safer. After voting, each participant completed a survey that included questions about voting system security to understand if one system was perceived to be more secure than another. In this study, participants rated the paper voting method with advanced e2e security to be the most secure; both the traditional paper ballot and security theater ballot were found to be the least secure. In summary, the advanced security features positively impacted voters’ perceptions of system security—indicating that people accurately assessed the safety of the provided voting method. This finding is promising and suggests that during real elections, there is the potential for voters to assess accurately a system’s security and then act-on and make decisions based on this information.

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