%0 Conference Paper %1 sede_20_seal %A Przytarski, Dennis %A Stach, Christoph %A Gritti, Clémentine %A Mitschang, Bernhard %B Proceedings of the ISCA 29th International Conference on Software Engineering and Data Engineering (SEDE 2020) %C Las Vegas %D 2020 %E Redei, Alex %E Wu, Rui %E family=Harris, suffix=Jr., given=Frederick C %I EasyChair %K authenticity confidentiality health_data_platform integrity myown %P 56--65 %R 10.29007/1sbn %T A Blueprint for a Trustworthy Health Data Platform Encompassing IoT and Blockchain Technologies %V 76 %X eHealth provides great relief for patients and physicians. This means, patients autonomously monitor their condition via IoT medical devices and make these data available to physicians for analyses. This requires a data platform that takes care of data acquisition, management, and provisioning. As health data are highly sensitive, there are major concerns regarding data security with respect to confidentiality, integrity, and authenticity. To this end, we present a blueprint for constructing a tru\ulinestworthy h\ulineealth d\ulineata p\ulinelatform called SEAL\@. It provides a lightweight attribute-based authentication mechanism for IoT devices to validate all involved data sources, there is a fine-grained data provisioning system to enable data provision according to actual requirements, and a verification procedure ensures that data cannot be manipulated.

@inproceedings{sede_20_seal, abstract = {eHealth provides great relief for patients and physicians. This means, patients autonomously monitor their condition via IoT medical devices and make these data available to physicians for analyses. This requires a data platform that takes care of data acquisition, management, and provisioning. As health data are highly sensitive, there are major concerns regarding data security with respect to \emph{confidentiality}, \emph{integrity}, and \emph{authenticity}. To this end, we present a blueprint for constructing a tru\textbf{\uline{s}}tworthy h\textbf{\uline{e}}alth d\textbf{\uline{a}}ta p\textbf{\uline{l}}atform called \emph{SEAL}\@. It provides a \emph{lightweight attribute-based authentication mechanism} for IoT devices to validate all involved data sources, there is a \emph{fine-grained data provisioning system} to enable data provision according to actual requirements, and a \emph{verification procedure} ensures that data cannot be manipulated.}, added-at = {2021-03-02T12:57:21.000+0100}, address = {Las Vegas}, author = {Przytarski, Dennis and Stach, Christoph and Gritti, Cl\'{e}mentine and Mitschang, Bernhard}, biburl = {https://puma.ub.uni-stuttgart.de/bibtex/249b58cc1228f89522fecaaef6f86e285/christophstach}, booktitle = {Proceedings of the ISCA 29\textsuperscript{th} International Conference on Software Engineering and Data Engineering (SEDE 2020)}, doi = {10.29007/1sbn}, editor = {Redei, Alex and Wu, Rui and {family={Harris}, suffix={Jr.}}, given={Frederick C}}, interhash = {e6b7f63821b439f49f8d453e6797bd03}, intrahash = {49b58cc1228f89522fecaaef6f86e285}, issn = {2398-7340}, keywords = {authenticity confidentiality health_data_platform integrity myown}, month = oct, pages = {56--65}, publisher = {EasyChair}, series = {EPiC Series in Computing}, timestamp = {2021-03-02T11:57:21.000+0100}, title = {{A} {B}lueprint for a {T}rustworthy {H}ealth {D}ata {P}latform {E}ncompassing {IoT} and {B}lockchain {T}echnologies}, volume = 76, year = 2020 }