This file was created by the TYPO3 extension
bib
--- Timezone: UTC
Creation date: 2025-02-19
Creation time: 04-20-27
--- Number of references
7
inproceedings
2021_pennekamp_bootstrapping
Confidential Computing-Induced Privacy Benefits for the Bootstrapping of New Business Relationships
2021
11
15
RWTH-2021-09499
In addition to quality improvements and cost reductions, dynamic and flexible business relationships are expected to become more important in the future to account for specific customer change requests or small-batch production. Today, despite reservation, sensitive information must be shared upfront between buyers and sellers. However, without a trust relation, this situation is precarious for the involved companies as they fear for their competitiveness following information leaks or breaches of their privacy. To address this issue, the concepts of confidential computing and cloud computing come to mind as they promise to offer scalable approaches that preserve the privacy of participating companies. In particular, designs building on confidential computing can help to technically enforce privacy. Moreover, cloud computing constitutes an elegant design choice to scale these novel protocols to industry needs while limiting the setup and management overhead for practitioners. Thus, novel approaches in this area can advance the status quo of bootstrapping new relationships as they provide privacy-preserving alternatives that are suitable for immediate deployment.
bootstrapping procurement; business relationships; secure industrial collaboration; privacy; Internet of Production
internet-of-production
https://www.comsys.rwth-aachen.de/fileadmin/papers/2021/2021-pennekamp-bootstrapping.pdf
RWTH Aachen University
Blitz Talk at the 2021 Cloud Computing Security Workshop (CCSW '21), co-located with the 28th ACM SIGSAC Conference on Computer and Communications Security (CCS '21), November 15-19, 2021, Seoul, Korea
RWTH Aachen University
Seoul, Korea
November 14, 2021
10.18154/RWTH-2021-09499
JanPennekamp
FrederikFuhrmann
MarkusDahlmanns
TimoHeutmann
AlexanderKreppein
DennisGrunert
ChristophLange
Robert H.Schmitt
KlausWehrle
inproceedings
2021-kunze-signal-detection
Detecting Out-Of-Control Sensor Signals in Sheet Metal Forming using In-Network Computing
2021
6
10
internet-of-production
https://www.comsys.rwth-aachen.de/fileadmin/papers/2021/2021-kunze-signal-detection.pdf
IEEE
Proceedings of the 2021 IEEE 30th International Symposium
on Industrial Electronics (ISIE)
978-1-7281-9023-5
2163-5145
10.1109/ISIE45552.2021.9576221
1
IkeKunze
PhilippNiemietz
LiamTirpitz
RenéGlebke
DanielTrauth
ThomasBergs
KlausWehrle
inproceedings
2021-glebke-service-based-forwarding
Service-based Forwarding via Programmable Dataplanes
2021
6
10
reflexes
/fileadmin/papers/2021/2021-glebke-service-based-forwarding.pdf
IEEE
Proceedings of the 2021 IEEE International Conference on High Performance Switching and Routing: Workshop on Semantic Addressing and Routing for Future Networks (SARNET-21)
978-1-6654-4005-9
2325-5609
10.1109/HPSR52026.2021.9481814
1
RenéGlebke
DirkTrossen
IkeKunze
DavidLou
JanRüth
MirkoStoffers
KlausWehrle
inproceedings
2021_mangel_reshare
Data Reliability and Trustworthiness through Digital Transmission Contracts
2021
6
8
12731
265-283
As decision-making is increasingly data-driven, trustworthiness and reliability of the underlying data, e.g., maintained in knowledge graphs or on the Web, are essential requirements for their usability in the industry. However, neither traditional solutions, such as paper-based data curation processes, nor state-of-the-art approaches, such as distributed ledger technologies, adequately scale to the complex requirements and high throughput of continuously evolving industrial data. Motivated by a practical use case with high demands towards data trustworthiness and reliability, we identify the need for digitally-verifiable data immutability as a still insufficiently addressed dimension of data quality. Based on our discussion of shortcomings in related work, we thus propose ReShare, our novel concept of digital transmission contracts with bilateral signatures, to address this open issue for both RDF knowledge graphs and arbitrary data on the Web. Our quantitative evaluation of ReShare’s performance and scalability reveals only moderate computation and communication overhead, indicating significant potential for cost-reductions compared to today’s approaches. By cleverly integrating digital transmission contracts with existing Web-based information systems, ReShare provides a promising foundation for data sharing and reuse in Industry 4.0 and beyond, enabling digital accountability through easily-adoptable digitally-verifiable data immutability and non-repudiation.
Lecture Notes in Computer Science (LNCS), Volume 12731
Digital transmission contracts; Trust; Data immutability; Non-repudiation; Accountability; Data dynamics; Linked Data; Knowledge graphs
internet-of-production
https://www.comsys.rwth-aachen.de/fileadmin/papers/2021/2021-mangel-eswc-reshare.pdf
Springer
Proceedings of the 18th Extended Semantic Web Conference (ESWC '21), June 6-10, 2021, Heraklion, Greece
Heraklion, Greece
June 6-10, 2021
978-3-030-77384-7
0302-9743
10.1007/978-3-030-77385-4_16
1
SimonMangel
LarsGleim
JanPennekamp
KlausWehrle
StefanDecker
inproceedings
2021_gleim_factstack
FactStack: Interoperable Data Management and Preservation for the Web and Industry 4.0
2021
5
31
P-312
371-395
Data exchange throughout the supply chain is essential for the agile and adaptive manufacturing processes of Industry 4.0. As companies employ numerous, frequently mutually incompatible data management and preservation approaches, interorganizational data sharing and reuse regularly requires human interaction and is thus associated with high overhead costs. An interoperable system, supporting the unified management, preservation and exchange of data across organizational boundaries is missing to date. We propose FactStack, a unified approach to data management and preservation based upon a novel combination of existing Web-standards and tightly integrated with the HTTP protocol itself. Based on the FactDAG model, FactStack guides and supports the full data lifecycle in a FAIR and interoperable manner, independent of individual software solutions and backward-compatible with existing resource oriented architectures. We describe our reference implementation of the approach and evaluate its performance, showcasing scalability even to high-throughput applications. We analyze the system's applicability to industry using a representative real-world use case in aircraft manufacturing based on principal requirements identified in prior work. We conclude that FactStack fulfills all requirements and provides a promising solution for the on-demand integration of persistence and provenance into existing resource-oriented architectures, facilitating data management and preservation for the agile and interorganizational manufacturing processes of Industry 4.0. Through its open source distribution, it is readily available for adoption by the community, paving the way for improved utility and usability of data management and preservation in digital manufacturing and supply chains.
Lecture Notes in Informatics (LNI), Volume P-312
Web Technologies; Data Management; Memento; Persistence; PID; Industry 4.0
internet-of-production
https://comsys.rwth-aachen.de/fileadmin/papers/2021/2021-gleim-btw-iop-interoperability-realization.pdf
Gesellschaft für Informatik
Proceedings of the 19th Symposium for Database Systems for Business, Technology and Web (BTW '21), September 13-17, 2021, Dresden, Germany
Dresden, Germany
September 13-17, 2021
978-3-88579-705-0
1617-5468
10.18420/btw2021-20
1
LarsGleim
JanPennekamp
LiamTirpitz
SaschaWelten
FlorianBrillowski
StefanDecker
inproceedings
2021-kunze-coordinate-transformation
Investigating the Applicability of In-Network Computing to Industrial Scenarios
2021
5
11
334-340
in-network computing; latency; approximation
internet-of-production,reflexes
https://www.comsys.rwth-aachen.de/fileadmin/papers/2021/2021-kunze-coordinate-transformation.pdf
IEEE
Proceedings of the 4th IEEE International Conference on Industrial Cyber-Physical Systems (ICPS '21)
978-1-7281-6207-2
10.1109/ICPS49255.2021.9468247
1
IkeKunze
RenéGlebke
JanScheiper
MatthiasBodenbenner
Robert H.Schmitt
KlausWehrle
inproceedings
2021-kunze-aqm-tofino-p4
Tofino + P4: A Strong Compound for AQM on High-Speed Networks?
2021
5
72-80
internet-of-production
https://www.comsys.rwth-aachen.de/fileadmin/papers/2021/2021-kunze-aqm-tofino-p4.pdf
IFIP/IEEE
Proceedings of the International Symposium on Integrated Network Management (IM '21)
Virtual Event
International Symposium on Integrated Network Management (IM '21)
May 2021
978-1-7281-9041-9
1
IkeKunze
MoritzGunz
DavidSaam
KlausWehrle
JanRüth