%0 Journal Article %1 sigwart2020secure %A Sigwart, Marten %A Borkowski, Michael %A Peise, Marco %A Schulte, Stefan %A Tai, Stefan %D 2020 %J Personal and Ubiquitous Computing %K blockchain provenance %R 10.1007/s00779-020-01417-z %T A secure and extensible blockchain-based data provenance framework for the Internet of Things %U https://doi.org/10.1007/s00779-020-01417-z %X As data collected and provided by Internet of Things (IoT) devices power an ever-growing number of applications and services, it is crucial that this data can be trusted. Data provenance solutions combined with blockchain technology are one way to make data more trustworthy by providing tamper-proof information about the origin and history of data records. However, current blockchain-based solutions for data provenance fail to take the heterogeneous nature of IoT applications and their data into account. In this work, we identify functional and non-functional requirements for a secure and extensible IoT data provenance framework, and conceptualise the framework as a layered architecture. Evaluating the framework using a proof-of-concept implementation based on Ethereum smart contracts, we conclude that our framework can be used to realise data provenance concepts for a wide range of IoT use cases. While blockchain technology generally poses constraints on scalability and privacy, we discuss multiple solutions aiming to overcome these issues.

@article{sigwart2020secure, abstract = {As data collected and provided by Internet of Things (IoT) devices power an ever-growing number of applications and services, it is crucial that this data can be trusted. Data provenance solutions combined with blockchain technology are one way to make data more trustworthy by providing tamper-proof information about the origin and history of data records. However, current blockchain-based solutions for data provenance fail to take the heterogeneous nature of IoT applications and their data into account. In this work, we identify functional and non-functional requirements for a secure and extensible IoT data provenance framework, and conceptualise the framework as a layered architecture. Evaluating the framework using a proof-of-concept implementation based on Ethereum smart contracts, we conclude that our framework can be used to realise data provenance concepts for a wide range of IoT use cases. While blockchain technology generally poses constraints on scalability and privacy, we discuss multiple solutions aiming to overcome these issues.}, added-at = {2022-03-25T16:08:15.000+0100}, author = {Sigwart, Marten and Borkowski, Michael and Peise, Marco and Schulte, Stefan and Tai, Stefan}, biburl = {https://www.bibsonomy.org/bibtex/25c230c0c050c6f473213e788ad12631d/abernstetter}, doi = {10.1007/s00779-020-01417-z}, interhash = {7d19d49c25b3809e6bcc832f40bd0024}, intrahash = {5c230c0c050c6f473213e788ad12631d}, issn = {16174917}, journal = {Personal and Ubiquitous Computing}, keywords = {blockchain provenance}, refid = {Sigwart2020}, timestamp = {2022-03-25T16:08:15.000+0100}, title = {A secure and extensible blockchain-based data provenance framework for the Internet of Things}, url = {https://doi.org/10.1007/s00779-020-01417-z}, year = 2020 }