This file was created by the TYPO3 extension
bib
--- Timezone: CEST
Creation date: 2024-09-07
Creation time: 20-43-04
--- Number of references
6
article
2023_pennekamp_purchase_inquiries
Offering Two-Way Privacy for Evolved Purchase Inquiries
ACM Transactions on Internet Technology
2023
11
17
23
4
Dynamic and flexible business relationships are expected to become more important in the future to accommodate specialized change requests or small-batch production. Today, buyers and sellers must disclose sensitive information on products upfront before the actual manufacturing. However, without a trust relation, this situation is precarious for the involved companies as they fear for their competitiveness. Related work overlooks this issue so far: Existing approaches only protect the information of a single party only, hindering dynamic and on-demand business relationships. To account for the corresponding research gap of inadequately privacy-protected information and to deal with companies without an established trust relation, we pursue the direction of innovative privacy-preserving purchase inquiries that seamlessly integrate into today's established supplier management and procurement processes. Utilizing well-established building blocks from private computing, such as private set intersection and homomorphic encryption, we propose two designs with slightly different privacy and performance implications to securely realize purchase inquiries over the Internet. In particular, we allow buyers to consider more potential sellers without sharing sensitive information and relieve sellers of the burden of repeatedly preparing elaborate yet discarded offers. We demonstrate our approaches' scalability using two real-world use cases from the domain of production technology. Overall, we present deployable designs that offer two-way privacy for purchase inquiries and, in turn, fill a gap that currently hinders establishing dynamic and flexible business relationships. In the future, we expect significantly increasing research activity in this overlooked area to address the needs of an evolving production landscape.
bootstrapping procurement; secure industrial collaboration; private set intersection; homomorphic encryption; Internet of Production
internet-of-production
https://www.comsys.rwth-aachen.de/fileadmin/papers/2023/2023-pennekamp-purchase-inquiries.pdf
ACM
1533-5399
10.1145/3599968
1
JanPennekamp
MarkusDahlmanns
FrederikFuhrmann
TimoHeutmann
AlexanderKreppein
DennisGrunert
ChristophLange
Robert H.Schmitt
KlausWehrle
inproceedings
2023-redefine-mpc-cosimulation
Delay-aware Model Predictive Control for Fast Frequency Control
Proceedings of the 14th IEEE International Conference on Smart Grid Communications (SmartGridComm 2023)
2023
10
redefine
https://www.comsys.rwth-aachen.de/fileadmin/papers/2023/2023-heins-mpc-for-ffc.pdf
IEEE
Proceedings of the 14th IEEE International Conference on Smart Grid Communications (SmartGridComm 2023)
10.1109/SmartGridComm57358.2023.10333921
1
TobiasHeins
RenéGlebke
MirkoStoffers
SriramGurumurthy
JanHeesemann
MartinaJosevski
AntonelloMonti
KlausWehrle
article
Jakobs_2023_3
Preserving the Royalty-Free Standards Ecosystem
European Intellectual Property Review
2023
7
45
7
371-375
It has long been recognized in Europe and elsewhere that standards-development organizations (SDOs) may adopt policies that require their participants to license patents essential to the SDO’s standards (standards-essential patents or SEPs) to manufacturers of standardized products (“implementers”) on a royalty-free (RF) basis. This requirement contrasts with SDO policies that permit SEP holders to charge implementers monetary patent royalties, sometimes on terms that are specified as “fair, reasonable and nondiscriminatory” (FRAND). As demonstrated by two decades of intensive litigation around the world, FRAND royalties have given rise to intractable disputes regarding the manner in which such royalties should be calculated and adjudicated. In contrast, standards distributed on an RF basis are comparatively free from litigation and the attendant transaction costs. Accordingly, numerous SDOs around the world have adopted RF licensing policies and many widely adopted standards, including Bluetooth, USB, IPv6, HTTP, HTML and XML, are distributed on an RF basis. This note briefly discusses the commercial considerations surrounding RF standards, the relationship between RF standards and open source software (OSS) and the SDO policy mechanisms – including “universal reciprocity” -- that enable RF licensing to succeed in the marketplace.
0142-0461
10.2139/ssrn.4235647
1
JorgeContreras
RudiBekkers
BradBiddle
EnricoBonadio
Michael A.Carrier
BernardChao
CharlesDuan
RichardGilbert
JoachimHenkel
ErikHovenkamp
MartinHusovec
KaiJakobs
Dong-hyuKim
Mark A.Lemley
Brian J.Love
LukeMcDonagh
Fiona M.Scott Morton
JasonSchultz
TimothySimcoe
Jennifer M.Urban
Joy YXiang
inproceedings
2023-grote-mvca-fairness
Instant Messaging Meets Video Conferencing: Studying the Performance of IM Video Calls
2023
6
https://www.comsys.rwth-aachen.de/fileadmin/papers/2023/2023-grote-mvca-fairness.pdf
IFIP/IEEE
Proceedings of the Network Traffic Measurement and Analysis Conference (TMA '23)
978-3-903176-58-4
10.23919/TMA58422.2023.10199019
1
LaurenzGrote
IkeKunze
ConstantinSander
KlausWehrle
incollection
2023_pennekamp_crd-a.i
Evolving the Digital Industrial Infrastructure for Production: Steps Taken and the Road Ahead
2023
2
8
35-60
The Internet of Production (IoP) leverages concepts such as digital shadows, data lakes, and a World Wide Lab (WWL) to advance today’s production. Consequently, it requires a technical infrastructure that can support the agile deployment of these concepts and corresponding high-level applications, which, e.g., demand the processing of massive data in motion and at rest. As such, key research aspects are the support for low-latency control loops, concepts on scalable data stream processing, deployable information security, and semantically rich and efficient long-term storage. In particular, such an infrastructure cannot continue to be limited to machines and sensors, but additionally needs to encompass networked environments: production cells, edge computing, and location-independent cloud infrastructures. Finally, in light of the envisioned WWL, i.e., the interconnection of production sites, the technical infrastructure must be advanced to support secure and privacy-preserving industrial collaboration. To evolve today’s production sites and lay the infrastructural foundation for the IoP, we identify five broad streams of research: (1) adapting data and stream processing to heterogeneous data from distributed sources, (2) ensuring data interoperability between systems and production sites, (3) exchanging and sharing data with different stakeholders, (4) network security approaches addressing the risks of increasing interconnectivity, and (5) security architectures to enable secure and privacy-preserving industrial collaboration. With our research, we evolve the underlying infrastructure from isolated, sparsely networked production sites toward an architecture that supports high-level applications and sophisticated digital shadows while facilitating the transition toward a WWL.
Cyber-physical production systems; Data streams; Industrial data processing; Industrial network security; Industrial data security; Secure industrial collaboration
internet-of-production
https://www.comsys.rwth-aachen.de/fileadmin/papers/2023/2023-pennekamp-iop-a.i.pdf
Springer
Interdisciplinary Excellence Accelerator Series
Internet of Production: Fundamentals, Applications and Proceedings
978-3-031-44496-8
10.1007/978-3-031-44497-5_2
1
JanPennekamp
AnastasiiaBelova
ThomasBergs
MatthiasBodenbenner
AndreasBührig-Polaczek
MarkusDahlmanns
IkeKunze
MoritzKröger
SandraGeisler
MartinHenze
DanielLütticke
BenjaminMontavon
PhilippNiemietz
LuciaOrtjohann
MaximilianRudack
Robert H.Schmitt
UweVroomen
KlausWehrle
MichaelZeng
incollection
2023_klugewilkes_crd-b2.iv
Modular Control and Services to Operate Line-less Mobile Assembly Systems
2023
2
8
303-328
The increasing product variability and lack of skilled workers demand for autonomous, flexible production. Since assembly is considered a main cost driver and accounts for a major part of production time, research focuses on new technologies in assembly. The paradigm of Line-less Mobile Assembly Systems (LMAS) provides a solution for the future of assembly by mobilizing all resources. Thus, dynamic product routes through spatiotemporally configured assembly stations on a shop floor free of fixed obstacles are enabled. In this chapter, we present research focal points on different levels of LMAS, starting with the macroscopic level of formation planning, followed by the mesoscopic level of mobile robot control and multipurpose input devices and the microscopic level of services, such as interpreting autonomous decisions and in-network computing. We provide cross-level data and knowledge transfer through a novel ontology-based knowledge management. Overall, our work contributes to future safe and predictable human-robot collaboration in dynamic LMAS stations based on accurate online formation and motion planning of mobile robots, novel human-machine interfaces and networking technologies, as well as trustworthy AI-based decisions.
Lineless mobile assembly systems (LMAS); Formation planning; Online motion planning; In-network computing; Interpretable AI; Human-machine collaboration; Ontology-based knowledge management
internet-of-production
https://www.comsys.rwth-aachen.de/fileadmin/papers/2023/2023-klugewilkes-iop-b2.iv.pdf
Springer
Interdisciplinary Excellence Accelerator Series
Internet of Production: Fundamentals, Applications and Proceedings
978-3-031-44496-8
10.1007/978-3-031-44497-5_13
1
AlineKluge-Wilkes
RalphBaier
DanielGossen
IkeKunze
AleksandraMüller
AmirShahidi
DominikWolfschläger
ChristianBrecher
BurkhardCorves
MathiasHüsing
VerenaNitsch
Robert H.Schmitt
KlausWehrle