Abstract
Fairness is an important property of secure electronic commerce. Most of E-payment protocols guarantee fairness by using a Trusted Third Party (TTP) or semi-trusted third party. There are few protocols without a trusted third party. Based on concurrent signature, we propose two protocols suitable for digital products transaction, one for mobile payment and the other for the transaction which has higher security requirements by customers. The most prominent character of our schemes is that there is no traditional TTP, so the network congestion can be avoided. Furthermore, the protocols satisfy fairness and some other characteristics.
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References
J. Zhou, R. Deng, and F. Bao, Some remarks on a fair exchange protocol, in Proc. of the Third International Workshop on Practice and Theory in Public Key Cryptography: Public Key Cryptography Public Key Cryptography (Springer-Verlag: Berlin, Heidelberg, 2000), pp.46–57.
J.Y. Zhou, Non-Repudiation. Ph.D Thesis, Department of Computer Science, Royal Holloway, University of London (1997).
N. Asokan, Fairness in electronic ecommerce. Ph.D Thesis, Department of Mathematics, University of Waterloo (1998).
I. Ray and I. Ray, Fair exchange in e-commerce, ACM SIGecom Exchange. Volume 3, Number 2, pp.9–17, (2002).
N. Asokan, M. Schunter, and M. Waidner, Optimistic protocols for fair exchange, in Proc. of the fourh A CM Conference on Computer and Communications Security (ACM Press, 1997), pp.6–17.
N. Asokan, V. Shoup, and M. Waidner, Asynchronous protocols for optimistic fair exchange, in Proceedings of the IEEE Symposium on Research in Security and Privacy (IEEE Computer Society Press, 1998), pp.86–99.
N. Asokan, V. Shoup, and M. Waidner. Optimistic Fair Exchange of Digital Signatures. IEEE Journal on Selected Areas in Communication. Volume 18, Number 4, pp.593–610, (2000).
J. Park, E. Chong, and H. Siegel, Constructing Fair-Exchange Protocols for E-Commerce via Distributed Computation of RSA Signatures, PODC’ 03 (ACM Press: New York, 2003), pp.172–181.
J. Zhou and D. Gollmann, An Efficient Non-repudiation Protocol, in Proc. of 1997 IEEE Computer Security Foundations Workshop (IEEE Computer Society Press, 1997), pp.126–132.
F. Bao, R. Deng, and W. Mao, Efficient and practical fair exchange protocols with offline TTP, in Proc. of IEEE Symposium on Security and Privacy (1998), pp.77–85.
C. Boyd and E. Foo, Off-Line Fair Payment Protocols Using Convertible Signature, in Proce. of Asiacrypt’98 (LNCS 1514) (Springer-Verlag: Berlin, Heidelberg, 1998), pp.271–285.
M.K. Franklin and M.K. Reiter, Fair exchange with a semi-trusted third party, in Proc. of the 4th ACM conference on Computer and Communications Security (ACM Press, 1997), pp.1–5.
L. Chen, C. Kudla, and K.G. Paterson, Concurrent signature, in Proc. of EUROCRYPT 2004, LNCS 3027 (Springer, 2004), pp.287–305.
R. Rivest, A. Shamir and Y. Tauman, How to leak a secret, in Advances in Cryptology-ASIACRYPT 2001, LNCS 2248 (Springer-Verlag, 2001), pp.552–565.
M. Jakobsson, K. Sako, and R. Impagliazzo, Designated verifier proofs and their applications, in Advances in Cryptology-EUROCRYPT 1996, LNCS Volume 1070 (Springer-Verlag, 1996), pp.143–154.
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© 2008 International Federation for Information Processing
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Fan, W., Shu, H., Yan, Q., Liu, X. (2008). Two Fair Payment Protocols for E-Commerce Transaction. In: Xu, L.D., Tjoa, A.M., Chaudhry, S.S. (eds) Research and Practical Issues of Enterprise Information Systems II. IFIP International Federation for Information Processing, vol 255. Springer, Boston, MA. https://doi.org/10.1007/978-0-387-76312-5_28
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DOI: https://doi.org/10.1007/978-0-387-76312-5_28
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