Litcius/Paper detail

A LINDDUN-Based Privacy Threat Modelling for National Identification Systems

Livinus Obiora Nweke, Mohamed Abomhara, Sule Yildirim Yayilgan, Debora Comparin, Olivier Heurtier, Calum Bunney

20222022 IEEE Nigeria 4th International Conference on Disruptive Technologies for Sustainable Development (NIGERCON)13 citationsDOIOpen Access PDF

Abstract

The international focus on attaining identity for all has fostered advances in technological developments that have given rise to changing demands on the architecture and deployment of national identification (NID) systems. In particular, national identity management solutions are now expected to respond to a fully modular architecture and to be flexible in the integration of the various building blocks, including the case where the building blocks are provided by different vendors. Another important demand is linked to the increasing concerns about privacy and the potential for unethical or harmful uses of personally identifiable information (PII). This has forced national identity management infrastructures to be compliant with relevant legislation, regulations as well as best practices. In this paper, we investigate how to integrate privacy principles and requirements into a fully modular national identity management architecture implementing a specific use case that deploys the OSIA standard for seamless integration of its building blocks. We employ the LINDDUN methodology to identify privacy threats to the selected use case, elicit mitigation strategies and suggest appropriate privacy enhancing solutions.

Topics & Concepts

Identity managementModular designSoftware deploymentIdentification (biology)Computer securityComputer scienceInformation privacyLegislationIdentity (music)ArchitectureInternet privacyPrivacy by DesignIdentity theftRisk analysis (engineering)BusinessAuthentication (law)Political scienceLawSoftware engineeringVisual artsOperating systemBiologyArtAcousticsBotanyPhysicsInformation and Cyber SecurityAccess Control and TrustSmart Grid Security and Resilience