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Tauber, Markus
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Official Name
Tauber, Markus
Akademische Titel
Ehemaliger FH Mitarbeiter
Scopus Author ID
37058207900
Status
exstaff
Research Outputs
Now showing 1 - 5 of 5
- PublicationEngineering of IoT automation system(CRC Press, 2017)
;Carlsson, Oscar ;Vera, Daniel ;Arceredillo, Eduardo; ;Bilal, Ahmad ;Schmittner, Christoph ;Plosz, Sandor ;Ruprechter, Thomas ;Aldrian, AndreasDelsing, Jerker184 - PublicationConnected cars — Threats, vulnerabilities and their impact(IEEE, 2018-05)
; ; ;Schmittner, Christoph; ; Delsing, JerkerThe growing demand for interoperability between system components within a connected car has led to new security challenges in automotive development. The existing components, based on established technology, are often being combined to form such a connected car. For such established technologies, individual, often sector specific threat and vulnerability catalogs exist. The aim of this paper is to identify blocks of established technologies in a connected car and to consolidate the corresponding threat and vulnerability catalogs relevant for the individual constituent components. These findings are used to estimate the impact on specific system components and subsystems to identify the most crucial components and threats.216 1Scopus© Citations 15 - PublicationMonitoring Industry 4.0 Applications for Security and Safety Standard ComplianceIn 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.
176 1Scopus© Citations 19 - PublicationEstablishing a Chain of Trust in a Sporadically Connected Cyber-Physical System(IEEE, 2021-05)
; ; ; ;Stummer, Anna; ; ;Pirker, Dominic ;Schmittner, ChristophDelsing, JerkerDrone based applications have progressed significantly in recent years across many industries, including agriculture. This paper proposes a sporadically connected cyber-physical system for assisting winemakers and minimizing the travel time to remote and poorly connected infrastructures. A set of representative diseases and conditions, which will be monitored by land-bound sensors in combination with multispectral images, is identified. To collect accurate data, a trustworthy and secured communication of the drone with the sensors and the base station should be established. We propose to use an Internet of Things framework for establishing a chain of trust by securely onboarding drones, sensors and base station, and providing self-adaptation support for the use case. Furthermore, we perform a security analysis of the use case for identifying potential threats and security controls that should be in place for mitigating them.126 1 - PublicationTowards trustworthy end-to-end communication in industry 4.0(IEEE, 2017)
; ; ; ; ;Matischek, Rainer ;Schmittner, Christoph ;Mantas, Georgios ;Thron, MarioDelsing, JerkerIndustry 4.0 considers integration of IT and control systems with physical objects, software, sensors and connectivity in order to optimize manufacturing processes. It provides advanced functionalities in control and communication for an infrastructure that handles multiple tasks in various locations automatically. Automatic actions require information from trustworthy sources. Thus, this work is focused on how to ensure trustworthy communication from the edge devices to the backend infrastructure. We derive a meta-model based on RAMI 4.0, which is used to describe an end-to-end communication use case for an Industry 4.0 application scenario and to identify dependabilities in case of security challenges. Furthermore, we evaluate secure messaging protocols and the integration of Trusted Platform Module (TPM) as a root of trust for dataexchange. We define a set of representative measurable indicator points based on existing standards and use them for automated dependability detection within the whole system.173 1Scopus© Citations 14