Ivkić, Igor

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Official Name
Ivkić, Igor
Main Affiliation
Akademische Titel
BSc, MSc
Email
igor.ivkic@fh-burgenland.at
ORCID
Scopus Author ID
57202364096
Status
staff

Research Outputs

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  • No Thumbnail Available
    Publication
    A Framework for Measuring the Costs of Security at Runtime
    (SCITEPRESS, 2019)
    Ivkić, Igor 
    ;
    Pichler, Harald 
    ;
    Zsilak, Mario 
    ;
    Mauthe, Andreas 
    ;
    Tauber, Markus 
    In Industry 4.0, Cyber-Physical Systems (CPS) are formed by components, which are interconnected with each other over the Internet of Things (IoT). The resulting capabilities of sensing and affecting the physical world offer a vast range of opportunities, yet, at the same time pose new security challenges. To address these challenges there are various IoT Frameworks, which offer solutions for managing and controlling IoT-components and their interactions. In this regard, providing security for an interaction usually requires performing additional security-related tasks (e.g. authorisation, encryption, etc.) to prevent possible security risks. Research currently focuses more on designing and developing these frameworks and does not satisfactorily provide methodologies for evaluating the resulting costs of providing security. In this paper we propose an initial approach for measuring the resulting costs of providing security for interacting IoT-components by using a Security Cost Modell ing Framework. Furthermore, we describe the necessary building blocks of the framework and provide an experimental design showing how it could be used to measure security costs at runtime.
      537  1Scopus© Citations 2
  • No Thumbnail Available
    Publication
    Analysing Design Approaches for the Power Consumption in Cyber-Physical Systems
    (IEEE, 2021-06-30)
    Sailer, Patrizia 
    ;
    Ivkić, Igor 
    ;
    Tauber, Markus 
    ;
    Mauthe, Andreas 
    ;
    Gouglidis, Antonios 
    The importance of Cyber Physical Systems (CPS) and Internet of Things (IoT) applications is constantly increasing, especially in the context of Industry 4.0. Architectural decisions are crucial not just for performance, security and resilience reasons but also regarding costs and resource usage. In this paper we analyse two of the fundamental approaches to design control loops (i.e. time-driven and event-driven), show how they can be realised and evaluate their power requirements. Through this the design criteria can be extended also considering the optimization of energy related aspects.
      156  1
  • No Thumbnail Available
    Publication
    A Security Cost Modelling Framework for Cyber-Physical Systems
    (ACM, 2022-05)
    Ivkić, Igor 
    ;
    Sailer, Patrizia 
    ;
    Gouglidis, Antonios 
    ;
    Mauthe, Andreas 
    ;
    Tauber, Markus 
    Cyber-Physical Systems (CPS) are formed through interconnected components capable of computation, communication, sensing and changing the physical world. The development of these systems poses a significant challenge since they have to be designed in a way to ensure cyber-security without impacting their performance. This article presents the Security Cost Modelling Framework (SCMF) and shows supported by an experimental study how it can be used to measure, normalise and aggregate the overall performance of a CPS. Unlike previous studies, our approach uses different metrics to measure the overall performance of a CPS and provides a methodology for normalising the measurement results of different units to a common Cost Unit. Moreover, we show how the Security Costs can be extracted from the overall performance measurements which allows to quantify the overhead imposed by performing security-related tasks. Furthermore, we describe the architecture of our experimental testbed and demonstrate the applicability of SCMF in an experimental study. Our results show that measuring the overall performance and extracting the security costs using SCMF can serve as basis to redesign interactions to achieve the same overall goal at less costs.
      167  2Scopus© Citations 2
  • No Thumbnail Available
    Publication
    Towards a Security Cost Model for Cyber-Physical Systems
    (IEEE, 2019-01)
    Ivkić, Igor 
    ;
    Mauthe, Andreas 
    ;
    Tauber, Markus 
    In times of Industry 4.0 and cyber-physical systems (CPS) providing security is one of the biggest challenges. A cyber attack launched at a CPS poses a huge threat, since a security incident may affect both the cyber and the physical world. Since CPS are very flexible systems, which are capable of adapting to environmental changes, it is important to keep an overview of the resulting costs of providing security. However, research regarding CPS currently focuses more on engineering secure systems and does not satisfactorily provide approaches for evaluating the resulting costs. This paper presents an interaction-based model for evaluating security costs in a CPS. Furthermore, the paper demonstrates in a use case driven study, how this approach could be used to model the resulting costs for guaranteeing security.
      468  1Scopus© Citations 4