Robert Riemann scite author profile

We demonstrate a quantum key distribution (QKD) testbed for room temperature single photon sources based on defect centres in diamond. A BB84 protocol over a short free-space transmission line is implemented. The performance of nitrogen-vacancy (NV) as well as silicon-vacancy defect (SiV) centres is evaluated. An extrapolation for the future applicability of such sources in quantum information processing is discussed.

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Distributed Random Process for a Large-Scale Peer-to-Peer Lottery

Grumbach

Riemann

2017

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Most online lotteries today fail to ensure the verifiability of the random process and rely on a trusted third party. This issue has received little attention since the emergence of distributed protocols like Bitcoin that demonstrated the potential of protocols with no trusted third party. We argue that the security requirements of online lotteries are similar to those of online voting, and propose a novel distributed online lottery protocol that applies techniques developed for voting applications to an existing lottery protocol. As a result, the protocol is scalable, provides efficient verification of the random process and does not rely on a trusted third party nor on assumptions of bounded computational resources. An early prototype confirms the feasibility of our approach.

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Towards a Roadmap for Privacy Technologies and the General Data Protection Regulation: A Transatlantic Initiative

Schiffner

Berendt

Siil

et al. 2018

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The EU's General Data Protection Regulation is poised to present major challenges in bridging the gap between law and technology. This paper reports on a workshop on the deployment, content and design of the GDPR that brought together academics, practitioners, civilsociety actors, and regulators from the EU and the US. Discussions aimed at advancing current knowledge on the use of abstract legal terms in the context of applied technologies together with best practices following state of the art technologies. Five themes were discussed: state of the art, consent, de-identification, transparency, and development and deployment practices. Four traversal conflicts were identified, and research recommendations were outlined to reconcile these conflicts.

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Distributed Protocols at the Rescue for Trustworthy Online Voting

Riemann

Grumbach

2017

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Abstract:While online services emerge in all areas of life, the voting procedure in many democracies remains paper-based as the security of current online voting technology is highly disputed. We address the issue of trustworthy online voting protocols and recall therefore their security concepts with its trust assumptions. Inspired by the Bitcoin protocol, the prospects of distributed online voting protocols are analysed. No trusted authority is assumed to ensure ballot secrecy. Further, the integrity of the voting is enforced by all voters themselves and without a weakest link, the protocol becomes more robust. We introduce a taxonomy of notions of distribution in online voting protocols that we apply on selected online voting protocols. Accordingly, blockchain-based protocols seem to be promising for online voting due to their similarity with paper-based protocols.

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Robert Riemann

Evaluation of nitrogen- and silicon-vacancy defect centres as single photon sources in quantum key distribution

Distributed Random Process for a Large-Scale Peer-to-Peer Lottery

Towards a Roadmap for Privacy Technologies and the General Data Protection Regulation: A Transatlantic Initiative

Distributed Protocols at the Rescue for Trustworthy Online Voting

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