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Tauber, Markus
Research Outputs
Monitoring Industry 4.0 Applications for Security and Safety Standard Compliance
2018-05, Bicaku, Ani, Schmittner, Christoph, Tauber, Markus, Delsing, Jerker
In Industry 4.0 independent entities shall inter-operate to allow flexible and customized production. To assure the parties that individual components are secured to inter-operate, we investigate automated standard compliance. The standard compliance is defined based on given sets of security and safety requirements from which are derived measurable indicator points. Those reflect configurations of systems recommended by security, safety or legally relevant standards and guidelines, which help to demonstrate the state of compliance. We propose in this paper an initial approach to automate such assessment when components are inter-operating with each other by using a monitoring and standard compliance verification framework. This will assure the parties that services or devices within their organizations operate in a secure and standard compliant way, without compromising the underlying infrastructure.
Application System Design - High Security
2017, Aldrian, Andreas, Priller, Peter, Schmittner, Christoph, Plosz, Sandor, Tauber, Markus, Wagner, Christian, Hein, Daniel, Ebner, Thomas, Maritsch, Martin, Ruprechter, Thomas, Lesjak, Christian
Engineering of IoT automation system
2017, Carlsson, Oscar, Vera, Daniel, Arceredillo, Eduardo, Tauber, Markus, Bilal, Ahmad, Schmittner, Christoph, Plosz, Sandor, Ruprechter, Thomas, Aldrian, Andreas, Delsing, Jerker
Interacting with the Arrowhead Local Cloud: On-boarding Procedure
2018-05, Bicaku, Ani, Maksuti, Silia, Hegedűs, Csaba, Tauber, Markus, Delsing, Jerker, Eliasson, Jens
Industrial automation systems are advancing rapidly and a wide range of standards, communication protocols and platforms supporting the integration of devices are introduced. It is therefore necessary to design and build appropriate tools and frameworks that allow the integration of devices with multiple systems and services. In this work we present the Arrow-head Framework, used to enable collaborative IoT automation and introduce two support core systems, SystemRegistry and DeviceRegistry, which are needed to create a chain of trust from a hardware device to a software system and its associated services. Furthermore, we propose an on-boarding procedure of a new device interacting with the Arrowhead local cloud. This ensures that only valid and authorized devices can host software systems within an Arrowhead local cloud.