A multi-candidate electronic voting scheme with unlimited participants

In this paper a new multi-candidate electronic voting scheme is constructed with unlimited participants. The main idea is to express a ballot to allow voting for up to k out of the m candidates and unlimited participants. The purpose of vote is to select more than one winner among $m$ candidates. Our result is complementary to the result by Sun peiyong$'$ s scheme, in the sense, their scheme is not amenable for large-scale electronic voting due to flaw of ballot structure. In our scheme the vote is split and hidden, and tallying is made for $G\ddot{o}del$ encoding in decimal base without any trusted third party, and the result does not rely on any traditional cryptography or computational intractable assumption. Thus the proposed scheme not only solves the problem of ballot structure, but also achieves the security including perfect ballot secrecy, receipt-free, robustness, fairness and dispute-freeness.Comment: 6 page

New Blind Muti-signature Schemes based on ECDLP

In various types of electronic transactions, including election systems and digital cash schemes, user anonymity and authentication are always required. Blind signatures are considered the most important solutions to meeting these requirements. Many studies have focused on blind signature schemes; however, most of the studied schemes are single blind signature schemes. Although blind multi-signature schemes are available, few studies have focused on these schemes. In this article, blind multi-signature schemes are proposed based on the Elliptic Curve Discrete Logarithm Problem (ECDLP). The proposed schemes are based on the GOST R34.10-2012 digital signature standard and the EC-Schnorr digital signature scheme, and they satisfy blind multi-signature security requirements and have better computational performance than previously proposed schemes. The proposed schemes can be applied in election systems and digital cash schemes

An Elliptic Curve Based Homomorphic Remote Voting System

A remote voting system allows participants to cast their ballots through the Internet. Remote voting systems based on the use of homomorphic public key cryptography have proven to be a good option for carrying out simple elections with a reduced amount of candidates. In this paper, we present a new system that makes use of the additive homomorphic capabilities of the Elliptic Curve ElGamal (EC-ElGamal) cryptosystem. All the stages of the system are described together with an experimental analysis section which provides an assessment on the type of election our system would be suitable for.Research of the authors was supported in part by grants MTM2010-21580-C02-01 (Spanish Ministerio de Ciencia e Innovación), 2014SGR-1666 (Generalitat de Catalunya) and IPT-2012-0603-430000 (Spanish Ministerio de Economía y Competitividad)

Privacy-Preserving Electronic Ticket Scheme with Attribute-based Credentials

Electronic tickets (e-tickets) are electronic versions of paper tickets, which enable users to access intended services and improve services' efficiency. However, privacy may be a concern of e-ticket users. In this paper, a privacy-preserving electronic ticket scheme with attribute-based credentials is proposed to protect users' privacy and facilitate ticketing based on a user's attributes. Our proposed scheme makes the following contributions: (1) users can buy different tickets from ticket sellers without releasing their exact attributes; (2) two tickets of the same user cannot be linked; (3) a ticket cannot be transferred to another user; (4) a ticket cannot be double spent; (5) the security of the proposed scheme is formally proven and reduced to well known (q-strong Diffie-Hellman) complexity assumption; (6) the scheme has been implemented and its performance empirically evaluated. To the best of our knowledge, our privacy-preserving attribute-based e-ticket scheme is the first one providing these five features. Application areas of our scheme include event or transport tickets where users must convince ticket sellers that their attributes (e.g. age, profession, location) satisfy the ticket price policies to buy discounted tickets. More generally, our scheme can be used in any system where access to services is only dependent on a user's attributes (or entitlements) but not their identities.Comment: 18pages, 6 figures, 2 table

A two authorities electronic vote scheme

[EN] In this paper we propose a new electronic multi-authority voting system based on blind signatures. We focus on the open problem of the efficiency of electronic voting systems. Most of the proposed systems rely on complex architectures or expensive proofs, in this work we aim to reduce the time-complexity of the voting process, both for the voter and the authorities involved. Our system is focused on simplicity and it is based on the assumption of two unrelated entities. This simplicity makes our approach scalable and flexible to multiple kinds of elections. We propose a method that limits the number of authorities to only 2 of them; we reduce the overall number of modular operations; and, propose a method which cut downs the interactions needed to cast a vote. The result is a voting protocol whose complexity scales linearly with the number of votes.Larriba-Flor, AM.; Sempere Luna, JM.; López Rodríguez, D. (2020). A two authorities electronic vote scheme. Computers & Security. 97:1-12. https://doi.org/10.1016/j.cose.2020.101940S11297Bloom, B. H. (1970). Space/time trade-offs in hash coding with allowable errors. Communications of the ACM, 13(7), 422-426. doi:10.1145/362686.362692Brams S., Fishburn P.C.. 2007. Approval voting Springer ScienceCarroll, T. E., & Grosu, D. (2009). A secure and anonymous voter-controlled election scheme. Journal of Network and Computer Applications, 32(3), 599-606. doi:10.1016/j.jnca.2008.07.010Chaum, D. L. (1981). Untraceable electronic mail, return addresses, and digital pseudonyms. Communications of the ACM, 24(2), 84-90. doi:10.1145/358549.358563Cramer, R., Gennaro, R., & Schoenmakers, B. (1997). A secure and optimally efficient multi-authority election scheme. European Transactions on Telecommunications, 8(5), 481-490. doi:10.1002/ett.4460080506Desmedt, Y. G. (2010). Threshold cryptography. European Transactions on Telecommunications, 5(4), 449-458. doi:10.1002/ett.4460050407Elgamal, T. (1985). A public key cryptosystem and a signature scheme based on discrete logarithms. IEEE Transactions on Information Theory, 31(4), 469-472. doi:10.1109/tit.1985.1057074Juang, W.-S. (2002). A Verifiable Multi-Authority Secret Election Allowing Abstention from Voting. The Computer Journal, 45(6), 672-682. doi:10.1093/comjnl/45.6.672Menezes A., van Oorschot P.C., Vanstone S.A.. 1996. Handbook of Applied Cryptography.Parhami, B. (1994). Voting algorithms. IEEE Transactions on Reliability, 43(4), 617-629. doi:10.1109/24.370218Rabin, M. O. (1980). Probabilistic Algorithms in Finite Fields. SIAM Journal on Computing, 9(2), 273-280. doi:10.1137/0209024Rabin, M. O. (1983). Transaction protection by beacons. Journal of Computer and System Sciences, 27(2), 256-267. doi:10.1016/0022-0000(83)90042-9Salazar, J. L., Piles, J. J., Ruiz-Mas, J., & Moreno-Jiménez, J. M. (2010). Security approaches in e-cognocracy. Computer Standards & Interfaces, 32(5-6), 256-265. doi:10.1016/j.csi.2010.01.004Nguyen, T. A. T., & Dang, T. K. (2013). Enhanced security in internet voting protocol using blind signature and dynamic ballots. Electronic Commerce Research, 13(3), 257-272. doi:10.1007/s10660-013-9120-5Wu, Z.-Y., Wu, J.-C., Lin, S.-C., & Wang, C. (2014). An electronic voting mechanism for fighting bribery and coercion. Journal of Network and Computer Applications, 40, 139-150. doi:10.1016/j.jnca.2013.09.011Yang, X., Yi, X., Nepal, S., Kelarev, A., & Han, F. (2018). A Secure Verifiable Ranked Choice Online Voting System Based on Homomorphic Encryption. IEEE Access, 6, 20506-20519. doi:10.1109/access.2018.2817518Yi, X., & Okamoto, E. (2013). Practical Internet voting system. Journal of Network and Computer Applications, 36(1), 378-387. doi:10.1016/j.jnca.2012.05.00

Blind multi-signature scheme based on factoring and discrete logarithm problem

One of the important objectives of information security systems is providing authentication of the electronic documents and messages. In that, blind signature schemes are an important solution to protect the privacy of users in security electronic transactions by highlighting the anonymity of participating parties. Many studies have focused on blind signature schemes, however, most of the studied schemes are based on single computationally difficult problem. Also digital signature schemes from two difficult problems were proposed but the fact is that only finding solution to single hard problem then these digital signature schemes are breakable. In this paper, we propose a new signature schemes base on the combination of the RSA and Schnorr signature schemes which are based on two hard problems: IFP and DLP. Then expanding to propose a single blind signature scheme, a blind multi-signature scheme, which are based on new baseline schemes