Auflistung nach Autor:in "Alber, Lukas"
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- KonferenzbeitragAdapting the TPL Trust Policy Language for a Self-Sovereign Identity World(Open Identity Summit 2021, 2021) Alber, Lukas; More, Stefan; Mödersheim, Sebastian; Schlichtkrull, AndersTrust policies enable the automated processing of trust decisions for electronic transactions. We consider the Trust Policy Language TPL of the LIGHTest project [Mö19] that was designed for businesses and organizations to formulate their trust policies. Using TPL, organizations can decide if and how they want to rely on existing trust schemes like Europe’s eIDAS or trust scheme translations endorsed by them. While the LIGHTest project is geared towards classical approaches like PKI-based trust infrastructures and X.509 certificates, novel concepts are on the rise: one example is the self-sovereign identity (SSI) model that enables users better control of their credentials, offers more privacy, and supports decentralized solutions. Since SSI is based on distributed ledger (DL) technology, it is a question of how TPL can be adapted so that organizations can continue to enjoy the benefits of flexible policy descriptions with automated evaluation at a very high level of reliability. Our contribution is a first step towards integrating SSI and the interaction with a DL into a Trust Policy Language. We discuss this on a more conceptual level and also show required TPL modifications. We demonstrate that we can integrate SSI concepts into TPL without changing the syntax and semantics of TPL itself and have to add new formats and introduce a new built-in predicate for interacting with the DL. Another advantage of this is that the “business logic” aspect of a policy does not need to change, enable re-use of existing policies with the new trust model.
- TextdokumentPolicy-based Access Control for the IoT and Smart Cities(Open Identity Summit 2019, 2019) Omolola, Olamide; More, Stefan; Fasllija, Edona; Wagner, Georg; Alber, LukasThe Internet of Things (IoT) can revolutionise the interaction between users and technology. This interaction generates sensitive and personal data. Therefore, access to the information they provide should be restricted to only authorised users. However, the limited storage and memory in IoT make it impractical to deploy traditional mechanisms to control access. In this paper, we propose a new access control mechanism based on trust policies adapted from LIGHTest. The proposed protocol also handles delegations in the IoT context elegantly. We provide the protocol overview and discuss its practical applications in the IoT environment.