This document will provide a guide for using DPV for Rights Exercise and Management. Currently, it is a work in progress.
Contributing: The DPVCG welcomes participation to improve the DPV and associated resources, including expansion or refinement of concepts, requesting information and applications, and addressing open issues. See contributing guide for further information.
[[[DPV]]]: is the base/core specification for the 'Data Privacy Vocabulary', which is extended for Personal Data [[PD]], Locations [[LOC]], Risk Management [[RISK]], Technology [[TECH]], and [[AI]]. Specific [[LEGAL]] extensions are also provided which model jurisdiction specific regulations and concepts . To support understanding and applications of [[DPV]], various guides and resources [[GUIDES]] are provided, including a [[PRIMER]]. A Search Index of all concepts from DPV and extensions is available.
[[DPV]] and related resources are published on GitHub. For a general overview of the Data Protection Vocabularies and Controls Community Group [[DPVCG]], its history, deliverables, and activities - refer to DPVCG Website. For meetings, see the DPVCG calendar.
The peer-reviewed article “Creating A Vocabulary for Data Privacy” presents a historical overview of the DPVCG, and describes the methodology and structure of the DPV along with describing its creation. An open-access version can be accessed here, here, and here. The article Data Privacy Vocabulary (DPV) - Version 2, accepted for presentation at the 23rd International Semantic Web Conference (ISWC 2024), describes the changes made in DPV v2.
The DPVCG was established as part of the SPECIAL H2020 Project, which received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No. 731601 from 2017 to 2019.
Harshvardhan J. Pandit was funded to work on DPV from 2020 to 2022 by the Irish Research Council's Government of Ireland Postdoctoral Fellowship Grant#GOIPD/2020/790.
The ADAPT SFI Centre for Digital Media Technology is funded by Science Foundation Ireland through the SFI Research Centres Programme and is co-funded under the European Regional Development Fund (ERDF) through Grant#13/RC/2106 (2018 to 2020) and Grant#13/RC/2106_P2 (2021 onwards).
The contributions of Beatriz Esteves have received funding through the PROTECT ITN Project from the European Union’s Horizon 2020 research and innovation programme under the Marie Skłodowska-Curie grant agreement No 813497.
The contributions of Harshvardhan J. Pandit have been made with the financial support of Science Foundation Ireland under Grant Agreement No. 13/RC/2106_P2 at the ADAPT SFI Research Centre.