@article {Onieva2004a, title = {Agent-mediated non-repudiation protocols}, journal = {Electronic Commerce Research and Applications}, volume = {3}, number = {2}, year = {2004}, pages = {152-162}, publisher = {Elsevier}, abstract = {

Non-repudiation is a security service that provides cryptographic evidence to support the settlement of disputes in electronic commerce. In commercial transactions, an intermediary (or agent) might be involved to help transacting parties to conduct their business. Nevertheless, such an intermediary may not be fully trusted. In this paper, we propose agent-mediated non-repudiation protocols and analyze their security requirements. We first present a simple scenario with only one recipient, followed by a more complicated framework where multiple recipients are involved and collusion between them is possible. We also identify applications that could take advantage of these agent-mediated non-repudiation protocols.

}, keywords = {Electronic commerce, fair exchange, group communications, Intermediary services, Non repudiation}, issn = {1567-4223}, author = {Jose A. Onieva and Jianying Zhou and Javier Lopez and Mildrey Carbonell} } @inproceedings {Onieva2004b, title = {Enhancing Certified Email Service for Timeliness and Multicast}, booktitle = {Fourth International Network Conference}, year = {2004}, pages = {327-335}, publisher = {University of Plymouth}, organization = {University of Plymouth}, abstract = {

Certified email is a value-added service of ordinary email, in which a sender wants to obtain a receipt from a recipient. Fair exchange protocols are a key component for certified email service to ensure fairness, i.e., the items held by two parties are exchanged without one party obtaining an advantage. We can find in the literature simple and fast optimistic protocols for fair electronic exchange and, more specifically, for certified electronic mail (CEM) and electronic contract signing (ECS). We have observed that some aspects of those protocols could be substantially improved. This paper presents two major contributions. Firstly, we provide a solution that allows both parties to end the protocol timely in an asynchronous way. Then, we extend the certified email service to the multicast scenario.

}, keywords = {Asynchronous timeliness, Certified Email, fair exchange, Multiparty protocol}, author = {Jose A. Onieva and Jianying Zhou and Javier Lopez} } @article {Onieva2004c, title = {Non-repudiation Protocols for Multiple Entities}, journal = {Computer Communications}, volume = {27}, number = {16}, year = {2004}, pages = {1608-1616}, abstract = {

Non-repudiation is a security service that provides cryptographic evidence to support the settlement of disputes. In this paper, we introduce the state-of-the-art of non-repudiation protocols for multiple entities. We extend an existing multi-party non-repudiation (MPNR) protocol to allow an originator to send different messages to many recipients in a single transaction. We further propose an optimistic multi-party non-repudiation protocol for exchange of different messages. The performance of our protocols with enhanced functionalities is still promising in comparison with existing MPNR protocols.

}, keywords = {Electronic commerce, fair exchange, group communications, Non repudiation, Security protocol}, issn = {0140-3664}, author = {Jose A. Onieva and Jianying Zhou and Javier Lopez} } @inproceedings {Onieva2003, title = {A Multi-Party Non-Repudiation Protocol for Exchange of Different Messages}, booktitle = {18th IFIP International Information Security Conference. Security and Privacy in the Age of Uncertainty (IFIP SEC{\textquoteright}03)}, year = {2003}, month = {May}, pages = {37-48}, publisher = {IFIP}, organization = {IFIP}, abstract = {

Non-repudiation is a security service that provides cryptographic evidence to support the settlement of disputes. In this paper, we introduce the state-of-the-art of multi-party non-repudiation protocols, and analyze the previous work where one originator is able to send the same message to many recipients. We propose a new multi-party non-repudiation protocol for sending different messages to many recipients. We also discuss the improvements achieved with respect to the multiple instances of a two-party non-repudiation protocol, and present some applications that would benefit from them.

}, keywords = {fair exchange, group communications, Non-repudiation}, author = {Jose A. Onieva and Jianying Zhou and Mildrey Carbonell and Javier Lopez} }