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@Inproceedings { 2024-kunze-spintrap,
   title = {SpinTrap: Catching Speeding QUIC Flows},
   year = {2024},
   month = {5},
   day = {7},
   publisher = {IEEE/IFIP},
   booktitle = {Proceedings of the 2024 IEEE/IFIP Network Operations and Management Symposium (NOMS '24)},
   event_name = {2024 IEEE/IFIP Network Operations and Management Symposium},
   state = {accepted},
   reviewed = {1},
   author = {Kunze, Ike and Sander, Constantin and Tissen, Lars and Bode, Benedikt and Wehrle, Klaus}
}

@Incollection { 2024_pennekamp_blockchain-industry,
   title = {Blockchain Technology Accelerating Industry 4.0},
   year = {2024},
   month = {3},
   day = {7},
   volume = {105},
   pages = {531-564},
   abstract = {Competitive industrial environments impose significant requirements on data sharing as well as the accountability and verifiability of related processes. Here, blockchain technology emerges as a possible driver that satisfies demands even in settings with mutually distrustful stakeholders. We identify significant benefits achieved by blockchain technology for Industry 4.0 but also point out challenges and corresponding design options when applying blockchain technology in the industrial domain. Furthermore, we survey diverse industrial sectors to shed light on the current intersection between blockchain technology and industry, which provides the foundation for ongoing as well as upcoming research. As industrial blockchain applications are still in their infancy, we expect that new designs and concepts will develop gradually, creating both supporting tools and groundbreaking innovations.},
   tags = {internet-of-production},
   publisher = {Springer},
   series = {Advances in Information Security},
   chapter = {17},
   booktitle = {Blockchains &ndash; A Handbook on Fundamentals, Platforms and Applications},
   ISBN = {978-3-031-32145-0},
   DOI = {10.1007/978-3-031-32146-7_17},
   reviewed = {1},
   author = {Pennekamp, Jan and Bader, Lennart and Wagner, Eric and Hiller, Jens and Matzutt, Roman and Wehrle, Klaus}
}

@Article { 2024_pennekamp_supply-chain-survey,
   title = {An Interdisciplinary Survey on Information Flows in Supply Chains},
   journal = {ACM Computing Surveys},
   year = {2024},
   month = {2},
   day = {1},
   volume = {56},
   number = {2},
   abstract = {Supply chains form the backbone of modern economies and therefore require reliable information flows. In practice, however, supply chains face severe technical challenges, especially regarding security and privacy. In this work, we consolidate studies from supply chain management, information systems, and computer science from 2010--2021 in an interdisciplinary meta-survey to make this topic holistically accessible to interdisciplinary research. In particular, we identify a significant potential for computer scientists to remedy technical challenges and improve the robustness of information flows. We subsequently present a concise information flow-focused taxonomy for supply chains before discussing future research directions to provide possible entry points.},
   keywords = {information flows; data communication; supply chain management; data security; data sharing; systematic literature review},
   tags = {internet-of-production},
   url = {https://www.comsys.rwth-aachen.de/fileadmin/papers/2024/2024-pennekamp-supply-chain-survey.pdf},
   publisher = {ACM},
   ISSN = {0360-0300},
   DOI = {10.1145/3606693},
   reviewed = {1},
   author = {Pennekamp, Jan and Matzutt, Roman and Klinkm{\"u}ller, Christopher and Bader, Lennart and Serror, Martin and Wagner, Eric and Malik, Sidra and Spi{\ss}, Maria and Rahn, Jessica and G{\"u}rpinar, Tan and Vlad, Eduard and Leemans, Sander J. J. and Kanhere, Salil S. and Stich, Volker and Wehrle, Klaus}
}

@Article { 2024_pennekamp_supply-chain-sensing,
   title = {Securing Sensing in Supply Chains: Opportunities, Building Blocks, and Designs},
   journal = {IEEE Access},
   year = {2024},
   month = {1},
   day = {8},
   volume = {12},
   pages = {9350-9368},
   abstract = {Supply chains increasingly develop toward complex networks, both technically in terms of devices and connectivity, and also anthropogenic with a growing number of actors. The lack of mutual trust in such networks results in challenges that are exacerbated by stringent requirements for shipping conditions or quality, and where actors may attempt to reduce costs or cover up incidents. In this paper, we develop and comprehensively study four scenarios that eventually lead to end-to-end-secured sensing in complex IoT-based supply chains with many mutually distrusting actors, while highlighting relevant pitfalls and challenges&mdash;details that are still missing in related work. Our designs ensure that sensed data is securely transmitted and stored, and can be verified by all parties. To prove practical feasibility, we evaluate the most elaborate design with regard to performance, cost, deployment, and also trust implications on the basis of prevalent (mis)use cases. Our work enables a notion of secure end-to-end sensing with minimal trust across the system stack, even for complex and opaque supply chain networks.},
   keywords = {blockchain technology; reliability; security; trust management; trusted computing; trusted execution environments},
   tags = {internet-of-production},
   url = {https://www.comsys.rwth-aachen.de/fileadmin/papers/2024/2024-pennekamp-secure-sensing.pdf},
   ISSN = {2169-3536},
   DOI = {10.1109/ACCESS.2024.3350778},
   reviewed = {1},
   author = {Pennekamp, Jan and Alder, Fritz and Bader, Lennart and Scopelliti, Gianluca and Wehrle, Klaus and M{\"u}hlberg, Jan Tobias}
}