Relevant bibliographies by topics / E-voting technologies

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  1. Journal articles
  2. Dissertations / Theses
  3. Book chapters
  4. Conference papers

Academic literature on the topic 'E-voting technologies'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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Journal articles on the topic "E-voting technologies"

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Raichel, Madona, and Anitha Sandeep. "e-Voting System: Technologies and Implementations." International Journal of Computer Applications 117, no. 24 (May 20, 2015): 4–7. http://dx.doi.org/10.5120/20700-3348.

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Hsu, Jeffrey, Qiyang Chen, and Gary Bronson. "Evaluating the Usability of E-Voting Technologies." International Journal of Information Systems and Social Change 6, no. 2 (April 2015): 16–33. http://dx.doi.org/10.4018/ijissc.2015040102.

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Voting has been an accepted means for electing candidates, receiving public approval for referendums and budgets, and for many other tasks where the will of the people, whether a broad population or a select group, can be recorded and measured in a tangible way. Because of advances in technology, together with problems inherent in manual forms of voting, the concepts and issues relating to electronic voting (e-voting) and various other technology-based forms, are been proposed, discussed, and examined. The goal of all such systems is the casting and recording of the votes from eligible voters as they intended to be cast, with adequate security. This security requires that there be no identifiable connection between the voter and the vote that is cast, while providing an audit trail that can be used to validate that every vote was counted and tallied, as cast. The focus of this paper is to examine electronic voting technologies from the perspective of usability in controlled environments. Current research has shown that such systems form the majority of the nascent e-voting technologies, primarily because they have come closest to solving the usability and security issues inherent in technology–based voting systems.
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Pardue, Harold, Jeffrey P. Landry, and Alec Yasinsac. "E-Voting Risk Assessment." International Journal of Information Security and Privacy 5, no. 3 (July 2011): 19–35. http://dx.doi.org/10.4018/jisp.2011070102.

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Approximately 25% (according to http://verifiedvoting.com/) of voting jurisdictions use direct recording electronic systems to record votes. Accurate tabulation of voter intent is critical to safeguard this fundamental act of democracy: voting. Electronic voting systems are known to be vulnerable to attack. Assessing risk to these systems requires a systematic treatment and cataloging of threats, vulnerabilities, technologies, controls, and operational environments. This paper presents a threat tree for direct recording electronic (DRE) voting systems. The threat tree is organized as a hierarchy of threat actions, the goal of which is to exploit a system vulnerability in the context of specific technologies, controls, and operational environment. As an abstraction, the threat tree allows the analyst to reason comparatively about threats. A panel of elections officials, security experts, academics, election law attorneys, representatives from governmental agencies, voting equipment vendors, and voting equipment testing labs vetted the DRE threat tree. The authors submit that the DRE threat tree supports both individual and group risk assessment processes and techniques.
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Alvarez, R. Michael, Ines Levin, Julia Pomares, and Marcelo Leiras. "Voting Made Safe and Easy: The Impact of e-voting on Citizen Perceptions." Political Science Research and Methods 1, no. 1 (June 2013): 117–37. http://dx.doi.org/10.1017/psrm.2013.2.

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Voting technologies frame the voting experience. Different ways of presenting information to voters, registering voter choices and counting ballots may change the voting experience and cause individuals to re-evaluate the legitimacy of the electoral process. Yet few field experiments have evaluated how voting technologies affect the voting experience. This article uses unique data from a recent e-voting field experiment in Salta, Argentina to study these questions. It employs propensity-score matching methods to measure the causal effect of replacing traditional voting technology with e-voting on the voting experience. The study's main finding is that while e-voters perceive the new technology as easier to use and more likely to register votes as intended—and support replacing traditional voting technologies with e-voting—the new technologies also raise some concerns about ballot secrecy.
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Lahane, Anita A., Junaid Patel, Talif Pathan, and Prathmesh Potdar. "Blockchain technology based e-voting system." ITM Web of Conferences 32 (2020): 03001. http://dx.doi.org/10.1051/itmconf/20203203001.

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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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Avgerou, Chrisanthi, Silvia Masiero, and Angeliki Poulymenakou. "Trusting e-voting amid experiences of electoral malpractice: The case of Indian elections." Journal of Information Technology 34, no. 3 (February 1, 2019): 263–89. http://dx.doi.org/10.1177/0268396218816199.

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This article constructs explanatory theory on trust in e-voting, a term that refers to the use of stand-alone IT artefacts in voting stations. We study e-voting as a techno-organisational arrangement embedded in the process of elections and the broader socio-economic context of a country. Following a critical realist approach, we apply retroduction and retrodiction principles to build theory by complementing existing studies of e-voting with insights from an in-depth case study of elections in India. First, we seek evidence of trust in e-voting in the responses of the public to the announcement of election results. Then we derive the following four mechanisms of trust creation or loss: the association of e-voting with the production of positive democratic effects; the making of e-voting part of the mission and identity of electoral authorities; the cultivation of a positive public attitude to IT with policies for IT-driven socio-economic development; and, in countries with turbulent political cultures, a clear distinction between the experience of voting as orderly and experiences of malpractice in other election tasks. We suggest that these mechanisms explain the different experience with e-voting of different countries. Attention to them helps in assessing the potential of electoral technologies in countries that are currently adopting them, especially fragile democracies embarking upon e-voting.
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Musiał-Karg, Magdalena, and Izabela Kapsa. "Polish Mass Media Coverage and Public Opinion on E-democracy." Medijske studije 12, no. 23 (July 23, 2021): 2–18. http://dx.doi.org/10.20901/ms.12.23.1.

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The rapid development of new technologies and their impressive communication capacity has fundamentally changed modern democracy by providing easy and universal access to information, as well as increasing participation and accessibility of political involvement tools. One of the electoral participation tools is e-voting which has been used in only a few countries. The main aim of the paper is to explore whether and how e-voting has been presented in Polish mass media (1), as well as to investigate people’s opinions about e-voting against certain political factors (2). The research is based on a media content analysis (quantitative and qualitative), data collected via the Content Analysis System for Television (CAST) and a quantitative analysis of data from a survey conducted by the authors (2018, sample: 1717 Poles). The results of the analyses show that the debate on the implementation of e-voting is rather poor, but the support for e-voting among Poles remains considerable. The public media rhetoric is interlinked with attitudes towards political parties. To some extent, determinants are reflected in the public opinion on the implementation of e-voting since Poles declare both their support for the introduction of e-voting and willingness to vote online.
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Rane, Lokesh. "Secure Digital E-Voting System using Blockchain Technology." International Journal for Research in Applied Science and Engineering Technology 9, no. VII (July 10, 2021): 164–67. http://dx.doi.org/10.22214/ijraset.2021.36283.

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Technology has great positive impacts on numerous aspects of our social life. Designing a globally connected architecture enables simple access to a range of resources and services. Furthermore, technology rather just like the internet has been a fertile ground for innovation and creativity. The blockchain technology is presented as a game-changer for several existing and emerging technologies. With its immutability property and decentralized architecture, it's taking center stage in many services as an equalization factor to the current parity between consumers and big corporations/governments. one among the fields during which blockchain application is used is E-voting. The target of such a scheme would be to produce a decentralized architecture to run and support a voting scheme that's open, fair, and independently verifiable. this might propose a possible new e-voting protocol that utilizes the blockchain as a transparent box. The protocol helps to attain fundamental e-voting properties additionally as offer a degree of decentralization.
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MUSIAŁ-KARG, Magdalena. "Internetowe głosowanie w E-stonii na przykładzie wyborów w latach 2005–2009." Przegląd Politologiczny, no. 3 (November 2, 2018): 99–118. http://dx.doi.org/10.14746/pp.2011.16.3.6.

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An increasingly popular tendency can be observed in numerous states in Europe and globally, where modern forms of casting votes are implemented, including, first and foremost, electronic voting via the Internet or mobile telephones. In the opinion of ICT (Information and Communication Technologies) advocates modern civilization is facing an era of electronic democracy, which constitutes this new form of exercising power, based on information and communication tools. Estonia is a European leader in applying electronic voting for election procedures. The paper presents an analysis of Estonia’s experience in the field of e-voting in the elections of 2005–2009.
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MUSIAŁ -KARG, Magdalena MUSIAŁ KARG. "Głosowanie elektroniczne – nowe wyzwanie dla demokracji?" Przegląd Politologiczny, no. 4 (November 2, 2018): 123–34. http://dx.doi.org/10.14746/pp.2010.15.4.10.

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The notion of democracy poses a significant challenge and problem in modern considerations on history, philosophy and politics. At present, in the face of the so-called information revolution, democracy has undoubtedly undergone profound and easily visible transformations. It can be said that the application of IT to exercise democratic power has brought about a revolution that will span a period of many years, given the different potential differing states have to spread the new technologies. The development of information and communications technology (ICT) has introduced new notions related to democracy, such as teledemocracy, technopolitics or electronic democracy (e-democracy). The subject of this paper, electronic voting (e-voting) is among the highly significant instruments of e-democracy. Electronic voting is the fulfillment of the principle of national sovereignty as it can be applied in the procedures of both indirect (e-elections) and direct (e-referendum) democracy.
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Dissertations / Theses on the topic "E-voting technologies"

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Achieng, Mourine Sarah. "The adoption and challenges of electronic voting technologies within the South African context." Thesis, Cape Peninsula University of Technology, 2013. http://hdl.handle.net/20.500.11838/1366.

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Thesis submitted in fulfilment of the requirements for the degree Master of Technology: in Information Technology in the Faculty of Informatics and Design at the Cape Peninsula University of Technology Supervisor: Dr Ephias Ruhode Cape Town campus December 2013
The use of ICTs such as computers, electronic databases and other technologies have been in use for a number of years within the public sector to organise, manage and disseminate information to the public as well as to facilitate day-to-day communication in government offices. In this context, the value of the use of ICTs has been to assist and streamline government operations. The technological development in South Africa has opened up the possibilities of the use of ICTs in the democratic and governance process. E-democracy has been defined as a tool for abandoning the representative system for one with more direct citizen engagement. This study sets out to explore the challenges of the current electoral process, and also determine the factors that could influence the adoption and diffusion of e-voting technologies within the South African context. Literature has shown that countries such as Brazil and India have successfully implemented electronic voting systems and other countries are at various piloting stages to address many challenges and problems associated with manual paper based system such as costs of physical ballot paper and other overheads, electoral delays, distribution of electoral materials, and general lack of confidence in the electoral process. It is in this context that the study also seeks to determine whether the South African electoral management body can leverage on the opportunities that e-voting presents. However, with all the benefits that e-voting presents, there are countries such Germany, the Netherlands etc. that have tried and tested e-voting systems and decided to abandon these system to go back to the manual paper ballot voting systems because of various reasons ranging from cost, security and verifiability. This research is exploratory in nature and adopts qualitative research approach and it is within the interpretivism paradigm. Survey and interview strategies were used to collect data. A purposive sampling method was used to select the participants for the survey. To gain an understanding of the views of voters and electoral management body (IEC) about the current electoral process and e-voting technologies, literature was explored, a questionnaire was distributed online to voters and an in-depth semi-structured interview was conducted with the IEC. The study targeted voters who had access to the internet since the survey questionnaire was distributed online. The analysis is based on thematic analysis and diffusion of innovation (DoI) theory was also used to provide an analytical framework for the study. Through this framework the aims and objectives of the study were conceptualized around three constructs from the theory (relative advantage, compatibility and complexity). The findings of the study revealed that the three constructs from the DoI framework are important factors that may influence the adoption process of e-voting technologies. The findings also revealed other factors such as availability of ICT enable infrastructure and resources, digital divide, trust in technology, awareness of the technology and environment could that also influence the adoption process. The contributions of this research are anticipated to be a better understanding of the adoption of e-voting technologies in South Africa. For the electoral management bodies, the contribution of this research is that the research to some extent portrays factors that could influence the adoption of e-voting technologies in South Africa. Therefore, findings such as availability of ICT infrastructure and accessibility of these infrastructures should be taken into consideration before introducing e-voting technologies. Keywords: DoI (diffusion of Innovation), e-voting (electronic voting) technologies, E-governance, e-participation.
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Démoulain, Matthieu. "Nouvelles technologies et droit des relations de travail : essai sur une évolution des relations de travail." Thesis, Paris 2, 2012. http://www.theses.fr/2012PA020037.

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De Kheops à Internet, des nanotechnologies à la téléportation, les nouvelles technologies rythment la vie des hommes. Fruits de leur intelligence, outils de grands travaux, moteurs de diffusion des savoirs, elles sont cause et effet des progrès de l’humanité. Innervant les relations de travail subordonnées comme tous les compartiments de la société, elles retiennent l’attention du juriste tant elles sont susceptibles de remodeler l’organisation de l’entreprise, de provoquer l’exclusion de la communauté de travail (au moins autant que de rapprocher ceux qui la composent), de provoquer l’entremêlement des vies personnelle et professionnelle. Nul compartiment du droit des relations de travail n’échappe à la pression des nouvelles technologies : au recrutement des salariés elles peuvent donner un nouveau visage ; à la conclusion du contrat de travail elles peuvent offrir instantanéité et dématérialisation ; au temps de son exécution elles imposent normes de sécurité (pour que, de chacun, le corps soit préservé) et normes de vie (pour que, de chacun, l’âme et l’esprit demeurent hors du champ de lecture de l’employeur). Et que dire du jeu de relations collectives remodelées à coup de communications syndicales dématérialisées, de vote électronique, de réunions virtuelles d’instance de représentation du personnel ? Le paysage se transforme. Le corpus normatif, parfois, peine à suivre. Le temps des diseurs de droit n’est pas celui de la science. Mais la science ne peut aller sans que le législateur et le juge, un jour, s’en saisissent. D’intérêts contradictoires où s’entremêlent impératif d’évolution (de l’entreprise) et de protection (du salarié), il leur appartient d’assurer la conciliation
Over the centuries, from Cheops to the Internet and from nanotechnology to teleportation, new technologies have constantly been at the centre of individuals’ lives. Produced by human intelligence, they appear to be a key to innovation, a tool for the dissemination of knowledge and they enable the progress and evolution of mankind. These new technologies obviously drew lawyers’ attention as they have a direct impact on society as a whole, but also more specifically on the relationship between employers and employees. Moreover, they tend to reshape the organisation of corporations and lead to the entanglement of professional and private life. As a matter of fact, labour law is under pressure: recruitment procedures can be altered by new technologies, the conclusion of employment contracts is nowadays electronic and instantaneous, and security and privacy rules have been established (not to mention electronic trade union communications, e-voting or e-meetings for staff representative bodies). In short, the whole framework is changing. Unfortunately, lawmakers are usually overtaken by events as science and law evolve at a very different pace. However, sooner or later, legal boundaries are set. Currently, courts’ main challenge is to try to make technological progress and protection of employees compatible
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Rocha, Rodolfo de Souza. "Utilização das novas tecnologias de informação e comunicação para a aplicação da metodologia “Instrução pelos Colegas” no ensino de física no ensino médio." Universidade Federal de Juiz de Fora (UFJF), 2017. https://repositorio.ufjf.br/jspui/handle/ufjf/4673.

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A metodologia Peer Instruction (PI), conhecida no Brasil também como Instrução pelos Colegas (IpC), é uma metodologia de ensino ativo originalmente pensada para salas de aula com um grande número de alunos e que se baseia no aprendizado pela interação entre os estudantes. Esta metodologia exige um estudo prévio dos alunos no tema a ser abordado, para reduzir as aulas expositivas pelo professor. Durante a aula, após uma breve explicação do conteúdo, são apresentadas questões conceituais de múltipla escolha para que os alunos votem na resposta correta, inicialmente sem interação com outros alunos. Dependendo da porcentagem de acertos o professor pode colocar a questão em discussão entre os alunos e realizar uma nova votação. Essa metodologia proporciona uma melhor interação entre os estudantes, onde os estudantes podem explicar os conceitos aprendidos uns para os outros e diminui o tempo de aula expositiva. O processo de votação pode ser feito por placas de votação, também chamados de flashcards, por gestos ou por clickers, que são pontos eletrônicos que armazenam as respostas em um computador de forma automatizada. Apesar da metodologia não exigir o uso de clickers, esse sistema de votação apresenta algumas vantagens em relação aos outros, como por exemplo, ele dificulta o plágio das respostas entre os estudantes durante o processo de votação, a aquisição de dados é mais rápida e facilita o armazenamento de dados para o professor. Contudo, os clickers são dispositivos relativamente caros, o que não corresponde à realidade da maioria das escolas públicas de ensino médio do Brasil. O objetivo desse trabalho foi desenvolver um sistema de votação eletrônico mais barato que os clickers comerciais no qual os alunos utilizam seus dispositivos móveis que possuem acesso à rede Wi-fi como uma alternativa para substituir os clickers. Esse sistema foi desenvolvido em linguagem HTML e PHP e é, basicamente, um website que funciona localmente no computador do professor. Para a sua implementação é necessário um computador, um roteador Wi-fi, que não necessita estar conectado à internet, e os dispositivos dos alunos. O sistema foi implementado na Escola Estadual de Ensino Médio “Monsenhor Miguel de Sanctis”, localizada na cidade de Guaçuí no estado do Espírito Santo, em um total de 155 alunos e foi abordado como tema as Leis de Newton. O sistema funcionou de maneira adequada durante as aulas, criou um ambiente de aula diferenciado e curioso para os alunos e também permitiu o registro das respostas individuais dos alunos em cada questão, permitindo uma análise posterior sobre as questões com maiores índices de erros e acertos, bem como o comportamento dos alunos em termos da participação nas discussões.
The Peer Instruction technique (PI), known in Brazil as “instrodução pelos colegas” (IPC), is an active teaching methodology originally designed for classrooms with a large number of students. It is based on active learning through the interactions among students. This methodology requires a prior study of students in the topic to be addressed in the classroom to reduce the long lectures by the teacher. During class, after a brief explanation of the content, conceptual multiple choice questions are presented to students. After one or two minutes initially without interaction with other students, the students report their answer to the teacher through a voting system. Depending on the percentage of correct answers the teacher can put the question under discussion among the students and hold a new round of voting. This methodology provides a better interaction between students, where students can explain the concepts learned one to the other and reduces the time of lecture. The voting process can be done by voting cards, also called flashcard, gesture or clickers, which are electronic points that store the answers in a computer in an automated fashion. Although the methodology does not require the use of clickers, this voting system has some advantages over other. For example, it minimizes plagiarized responses among students during the voting process, the data acquisition is faster and it facilitates data storage for further analyzes. However, the clickers are relatively expensive devices, which does not correspond to the reality of most public high schools in Brazil. The aim of this study was to develop a cheaper electronic voting system that commercial clickers, which students use their mobile devices with access to the Wi-Fi network as an alternative to replace clickers. This system was developed in HTML and PHP language and is, basically, a website that runs locally on the teacher's computer. For its implementation a computer is required, a Wi-Fi router without connection to the internet, and the students' mobile devices. The system was implemented in school E. E. E. M. "Monsignor Miguel de Sanctis", located in Guaçuí in the state of Espirito Santo, in a total of 155 students. The system worked properly during class, created a distinctive and curious class environment for students and registered individual students’ responses to each question, allowing further analysis of the voting results and the student’s participation during the discussions.
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Book chapters on the topic "E-voting technologies"

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Priyadharshini, A., M. Prasad, R. Joshua Samuel Raj, and S. Geetha. "An Authenticated E-Voting System Using Biometrics and Blockchain." In Intelligence in Big Data Technologies—Beyond the Hype, 535–42. Singapore: Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-5285-4_53.

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Hsu, Jeffrey, and Gary Bronson. "E-Voting Technologies Usability: A Critical Element for Enabling Successful Elections." In Emerging Challenges in Business, Optimization, Technology, and Industry, 61–78. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-58589-5_5.

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Elkind, Edith. "Voting: A View through the Algorithmic Lens." In E-Commerce and Web Technologies, 1. Berlin, Heidelberg: Springer Berlin Heidelberg, 2009. http://dx.doi.org/10.1007/978-3-642-03964-5_1.

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Meletiadou, Anastasia, and Rüdiger Grimm. "Using Instant Messaging Systems as a Platform for Electronic Voting." In E-Technologies: Innovation in an Open World, 12–24. Berlin, Heidelberg: Springer Berlin Heidelberg, 2009. http://dx.doi.org/10.1007/978-3-642-01187-0_2.

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Goundar, Sam, Rukshar Khan, Kunal Chand, Emmenual Reddy, and S. P. Raja. "Blockchain-based e-Voting Application." In Blockchain Technologies, Applications and Cryptocurrencies, 169–88. WORLD SCIENTIFIC, 2020. http://dx.doi.org/10.1142/9789811205279_0008.

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Pardue, Harold, Jeffrey P. Landry, and Alec Yasinsac. "E-Voting Risk Assessment." In Privacy Solutions and Security Frameworks in Information Protection, 149–62. IGI Global, 2013. http://dx.doi.org/10.4018/978-1-4666-2050-6.ch010.

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Approximately 25% (according to http://verifiedvoting.com/) of voting jurisdictions use direct recording electronic systems to record votes. Accurate tabulation of voter intent is critical to safeguard this fundamental act of democracy: voting. Electronic voting systems are known to be vulnerable to attack. Assessing risk to these systems requires a systematic treatment and cataloging of threats, vulnerabilities, technologies, controls, and operational environments. This paper presents a threat tree for direct recording electronic (DRE) voting systems. The threat tree is organized as a hierarchy of threat actions, the goal of which is to exploit a system vulnerability in the context of specific technologies, controls, and operational environment. As an abstraction, the threat tree allows the analyst to reason comparatively about threats. A panel of elections officials, security experts, academics, election law attorneys, representatives from governmental agencies, voting equipment vendors, and voting equipment testing labs vetted the DRE threat tree. The authors submit that the DRE threat tree supports both individual and group risk assessment processes and techniques.
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Rössler, Thomas. "Electronic Voting Using Identity Domain Separation and Hardware Security Modules." In E-Adoption and Technologies for Empowering Developing Countries, 100–114. IGI Global, 2012. http://dx.doi.org/10.4018/978-1-4666-0041-6.ch008.

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E-voting increasingly gains interest in e-Democracy and e-Government movements. Not only the technical security issues of electronic voting systems are of paramount importance, but also the necessity of following an all-embracing approach is challenging and needs to be addressed. This paper discusses e-voting as being a supreme discipline of e-Government. It introduces an innovative e-voting concept using the Internet as the voting channel. The concept introduced is based on Austrian e-Government elements and the Austrian identity management concept in particular. This paper presents a novel approach of building an e-voting system relying on two core principles: strong end-to-end encryption and stringent identity domain separation.
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AbdulRahim, Abdulwasiu Kailani, Olusegun Folorunso, and Sushil Sharma. "An Improved Dynavote E-Voting Protocol Implementation." In Adoption of Virtual Technologies for Business, Educational, and Governmental Advancements, 72–90. IGI Global, 2013. http://dx.doi.org/10.4018/978-1-4666-2053-7.ch006.

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Electronic voting—the use of computers or computerized voting equipment to cast and tabulate and tally ballots in an election in a trustable manner—is a pillar of e-Government. The DynaVote voting protocol system proposed by Cetinkaya and Koc (2007) is assumed secure and practicable on a network. However, the DynaVote e-Voting protocol does not completely protect the voting counter against impersonated votes, especially when the pseudo-Vote identities are known by the wrong voter or compromised by authorities. To address this problem, a prototype called improved DynaVote e-Vote protocol was designed to protect the counter from anomalies associated with counting impersonated votes (multiple votes) in the same election. This was achieved by introducing biometric fingerprint and pseudo voter identities (PVID) encryption for each voter during voter registration via online or data mining of population data containing fingerprint biometrics. Furthermore, fingerprint reader and RSA public key cryptography is used in PVID to eliminate counting impersonated votes. The performance results showed that improved DynaVote e-Vote protocol is more reliable, eligible, and accurate, and protects voter privacy against other e-Vote protocols.
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Posea, Ionut-Mihai, Marius Ion, Florin Pop, Decebal Popescu, and Nirvana Popescu. "E-Vote." In Advances in Electronic Government, Digital Divide, and Regional Development, 188–213. IGI Global, 2016. http://dx.doi.org/10.4018/978-1-4666-8629-8.ch008.

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The electoral system is an essential element for the survival of the democracy. Efforts are being made to develop voting systems that are convenient, reliable, transparent and secure. However, considering the security problems that can occur using the underlying technologies, it is difficult to construct an impenetrable system. This chapter presents e-Vote, a distributed electronic voting system architecture that is designed to ensure the accuracy, privacy, verifiability, convenience, and the openness of the democracy of a large-scale electoral process. We describe the necessary requirements for the e-voting protocol, and propose a cryptographic voting scheme that achieves them. The e-voting protocol makes use of several well-established cryptographic primitives e.g. symmetric and asymmetric encryption, digital signatures, blind signatures and secret sharing. Using the suggested framework, we also demonstrate an approach using the current computing and network technologies to effectively describe an architecture that can support a computationally secure and reliable voting process.
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Caldelli, Roberto, Rudy Becarelli, Francesco Filippini, Francesco Picchioni, and Riccardo Giorgetti. "Electronic Voting by Means of Digital Terrestrial Television." In E-Adoption and Technologies for Empowering Developing Countries, 72–82. IGI Global, 2012. http://dx.doi.org/10.4018/978-1-4666-0041-6.ch006.

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In this paper a Digital Terrestrial Television (DTT) based voting system is presented. This electronic voting technology allows disabled users to cast their vote from home by using common well-known devices. The needed equipment are a TV set, a Set Top Box (STB) with its remote control and a telephone line. The complete infrastructure consists of an MHP (Multimedia Home Platform) application that acts as a client application, a server application that acts as a network/counting server for e-voting, and a security protocol based on asymmetric key encryption to ensure authentication and secrecy of the vote. The MHP application is broadcasted by a certified (e.g., national) TV channel that grants its originality. The user needs a smart card issued by a national authority and to sign the encrypted ballot. The voter can browse the application by acting on the STB remote control. The server application is in charge to verify user identity, to gather and store user’s encrypted ballots and finally to count votes. The communication between the client application and the server takes place by means of a secured channel (using HTTPS) while the voting operations are secured with the help of asymmetric keys encryption.
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Conference papers on the topic "E-voting technologies"

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STOICA, Marian, Bogdan GHILIC-MICU, Marinela MIRCEA, and Panagiotis SINIOROS. "E-DEMOCRACY AND E-VOTING USING EMERGING TECHNOLOGIES." In 19th International Conference on INFORMATICS in ECONOMY. Education, Research and Business Technologies. Bucharest University of Economic Studies Press, 2020. http://dx.doi.org/10.24818/ie2020.02.06.

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Hapsara, Manik. "E-voting Indonesia: Framing the research." In 2014 9th Iberian Conference on Information Systems and Technologies (CISTI). IEEE, 2014. http://dx.doi.org/10.1109/cisti.2014.6877000.

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Patidar, Kriti, and Swapnil Jain. "Decentralized E-Voting Portal Using Blockchain." In 2019 10th International Conference on Computing, Communication and Networking Technologies (ICCCNT). IEEE, 2019. http://dx.doi.org/10.1109/icccnt45670.2019.8944820.

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Thuy, Linh Vo-Cao, Khoi Cao-Minh, Chuong Dang-Le-Bao, and Tuan A. Nguyen. "Votereum: An Ethereum-Based E-Voting System." In 2019 IEEE-RIVF International Conference on Computing and Communication Technologies (RIVF). IEEE, 2019. http://dx.doi.org/10.1109/rivf.2019.8713661.

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Uddin, Mohammed Nasir, Sadman Ahmmed, Imtiaz Ahmed Riton, and Linta Islam. "An Blockchain-based E-voting System Applying Time Lock Encryption." In 2021 International Conference on Intelligent Technologies (CONIT). IEEE, 2021. http://dx.doi.org/10.1109/conit51480.2021.9498566.

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Cheema, Muhammad Asaad, Nouman Ashraf, Asad Aftab, Hassaan Khaliq Qureshi, Muhammad Kazim, and Ahmad Taher Azar. "Machine Learning with Blockchain for Secure E-voting System." In 2020 First International Conference of Smart Systems and Emerging Technologies (SMARTTECH). IEEE, 2020. http://dx.doi.org/10.1109/smart-tech49988.2020.00050.

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Jain, Harsh, Rajvardhan Oak, and Jay Bansal. "Towards Developing a Secure and Robust Solution for E-Voting using Blockchain." In 2019 International Conference on Nascent Technologies in Engineering (ICNTE). IEEE, 2019. http://dx.doi.org/10.1109/icnte44896.2019.8945955.

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Fuster, Rudyard, and Elizabeth E. Grandon. "Determinants of e-voting acceptance in Chile: An approach based on the UTAUT model." In 2021 16th Iberian Conference on Information Systems and Technologies (CISTI). IEEE, 2021. http://dx.doi.org/10.23919/cisti52073.2021.9476668.

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Ait Wakrime, Abderrahim, J. Paul Gibson, and Jean-Luc Raffy. "Formalising the Requirements of an E-Voting Software Product Line Using Event-B." In 2018 IEEE 27th International Conference on Enabling Technologies: Infrastructure for Collaborative Enterprises (WETICE). IEEE, 2018. http://dx.doi.org/10.1109/wetice.2018.00022.

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Aseere, Ali M., David E. Millard, and Enrico H. Gerding. "An Agent Based Voting System for E-Learning Course Selection Involving Complex Preferences." In 2011 IEEE/WIC/ACM International Joint Conferences on Web Intelligence (WI) and Intelligent Agent Technologies (IAT). IEEE, 2011. http://dx.doi.org/10.1109/wi-iat.2011.238.

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