Visible to the public Secure Standards-Based Reference Architecture for Flexibility Activation and Democratisation

TitleSecure Standards-Based Reference Architecture for Flexibility Activation and Democratisation
Publication TypeConference Paper
Year of Publication2020
AuthorsKeko, Hrvoje, Hasse, Peter, Gabandon, Eloi, Su\v cić, Stjepan, Isakovic, Karsten, Cipriano, Jordi
Conference NameCIRED 2020 Berlin Workshop (CIRED 2020)
KeywordsCollaboration, composability, Human Behavior, Metrics, Policy-Governed Secure Collaboration, privacy, pubcrawl, resilience, Resiliency, Scalability, smart grid consumer privacy
AbstractThis study presents an open standards-based information system supporting democratisation and consumer empowerment through flexibility activation. This study describes a functional technical reference infrastructure: a secure, standard-based and viable communication backbone for flexibility activation. The infrastructure allows connection, registering, activation and reporting for different types of granular consumer flexibility. The flexibility sources can be directly controllable set points of chargers and stationary batteries, as well as controllable loads. The proposed communication system sees all these flexibility provisions as distributed energy resources in a wider sense, and the architecture allows consumer-level integration of different energy systems. This makes new flexibility sources fully available to the balancing responsible entities in a viable and realistically implementable manner. The proposed reference architecture, as implemented in the FLEXCoop project, relies on established open standards as it is based on the Open Automated Demand Response (OpenADR) and OAuth2/OpenID standards and the corresponding IEC 62746-10 standard, and it covers interfacing towards other relevant standards. The security and access implications are addressed by the OpenID security layer built on top of the OAuth2 and integrated with the OpenADR standard. To address the data protection and privacy aspects, the architecture is designed on the least knowledge principle.
DOI10.1049/oap-cired.2021.0123
Citation Keykeko_secure_2020