Publicação
Remote electronic voting: studying and improving Helios
| Resumo: | A former North American President once said that the ballot is stronger than the bullet. In fact, the most civilized and organized way for a people express their opinion is by voting. However, there are people with bad intentions that affect voting and elections, being normal situations of coercion, collusion, fraud or forgery that disturb and cause alterations in the outcome of a vote. Thus, it becomes necessary to find ways to protect the voters, through vote secrecy and transparency, so that in end of a voting, democracy and justice prevail. Since the secret ballot papers until the electronic voting machines, passing through punched cards, technology in voting systems is evolving to ensure a greater security in elections, as well as greater efficiency, lower costs and other characteristics wanted in this type of systems. Nowadays, remote electronic voting is seen as the ultimate goal to achieve. The difficulty of developing such system is to ensure that it meets all the security requirements without infringing each other and without compromising the usability of the system itself. Thus, cryptography becomes an essential tool for obtaining security and integrity on electronic voting systems. This master thesis focuses on the world of electronic voting, in particular, the remote electronic voting. The objective is to find a system of this kind, with real world applications, to be studied and analyzed in a security point of view. Hence, we made a research on voting and, more deeply, a research on electronic voting schemes, in order to learn how to conceive it, which include the different stages that compose an election, types of voting and the entities involved, and what requirements to fulfill, both the security and functional. Because cryptography is used in most schemes, a detailed study was also performed on the primitives most common in protocols of electronic voting. However, there are not many schemes that pass from theory to practice. Fortunately, we found Helios, a well known scheme that implements various cryptographic techniques for everyone, under certain assumptions, be able to audit polls conducted with this system. A study was performed in order to explain how it was constructed and to identify its strengths and weaknesses. We also present some ongoing work by different people to improve Helios. Finally, we propose improvements on our own, to fight against coercion, to decrease the levels of assumptions and overcome corruption issues. Furthermore, we propose measures to protect the virtual voting booth and a mobile application to cast votes. |
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| Autores principais: | Faria, Pedro Vasconcelos Castro Lopes |
| Assunto: | Homomorphic Helios Electronic voting |
| Ano: | 2013 |
| País: | Portugal |
| Tipo de documento: | dissertação de mestrado |
| Tipo de acesso: | acesso aberto |
| Instituição associada: | Universidade do Minho |
| Idioma: | inglês |
| Origem: | RepositóriUM - Universidade do Minho |
| Resumo: | A former North American President once said that the ballot is stronger than the bullet. In fact, the most civilized and organized way for a people express their opinion is by voting. However, there are people with bad intentions that affect voting and elections, being normal situations of coercion, collusion, fraud or forgery that disturb and cause alterations in the outcome of a vote. Thus, it becomes necessary to find ways to protect the voters, through vote secrecy and transparency, so that in end of a voting, democracy and justice prevail. Since the secret ballot papers until the electronic voting machines, passing through punched cards, technology in voting systems is evolving to ensure a greater security in elections, as well as greater efficiency, lower costs and other characteristics wanted in this type of systems. Nowadays, remote electronic voting is seen as the ultimate goal to achieve. The difficulty of developing such system is to ensure that it meets all the security requirements without infringing each other and without compromising the usability of the system itself. Thus, cryptography becomes an essential tool for obtaining security and integrity on electronic voting systems. This master thesis focuses on the world of electronic voting, in particular, the remote electronic voting. The objective is to find a system of this kind, with real world applications, to be studied and analyzed in a security point of view. Hence, we made a research on voting and, more deeply, a research on electronic voting schemes, in order to learn how to conceive it, which include the different stages that compose an election, types of voting and the entities involved, and what requirements to fulfill, both the security and functional. Because cryptography is used in most schemes, a detailed study was also performed on the primitives most common in protocols of electronic voting. However, there are not many schemes that pass from theory to practice. Fortunately, we found Helios, a well known scheme that implements various cryptographic techniques for everyone, under certain assumptions, be able to audit polls conducted with this system. A study was performed in order to explain how it was constructed and to identify its strengths and weaknesses. We also present some ongoing work by different people to improve Helios. Finally, we propose improvements on our own, to fight against coercion, to decrease the levels of assumptions and overcome corruption issues. Furthermore, we propose measures to protect the virtual voting booth and a mobile application to cast votes. |
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