A performance-based tabular approach for joint systematic improvement of risk control and resilience applied to telecommunication grid, gas network, and ultrasound localization system

Author:

Häring IvoORCID,Fehling-Kaschek Mirjam,Miller Natalie,Faist Katja,Ganter Sebastian,Srivastava Kushal,Jain Aishvarya Kumar,Fischer Georg,Fischer Kai,Finger Jörg,Stolz Alexander,Leismann Tobias,Hiermaier Stefan,Carli Marco,Battisti Federica,Makri Rodoula,Celozzi Giuseppe,Belesioti Maria,Sfakianakis Evangelos,Agrafioti Evita,Chalkidou Anastasia,Papadakis George,Fuggini Clemente,Bolletta Fabio,Neri Alberto,Giunta Guiseppe,Scheithauer Hermann,Höflinger Fabian,Schott Dominik J.,Schindelhauer Christian,Köhler Sven,Linkov Igor

Abstract

AbstractOrganizational and technical approaches have proven successful in increasing the performance and preventing risks at socio-technical systems at all scales. Nevertheless, damaging events are often unavoidable due to a wide and dynamic threat landscape and enabled by the increasing complexity of modern systems. For overall performance and risk control at the system level, resilience can be a versatile option, in particular for reducing resources needed for system development, maintenance, reuse, or disposal. This paper presents a framework for a resilience assessment and management process that builds on existing risk management practice before, during, and after potential and real events. It leverages tabular and matrix correlation methods similar as standardized in the field of risk analysis to fulfill the step-wise resilience assessment and management for critical functions of complex systems. We present data needs for the method implementation and output generation, in particular regarding the assessment of threats and the effects of counter measures. Also included is a discussion of how the results contribute to the advancement of functional risk control and resilience enhancement at system level as well as related practical implications for its efficient implementation. The approach is applied in the domains telecommunication, gas networks, and indoor localization systems. Results and implications are further discussed.

Funder

Ministry of Science, Research and the Arts Baden-Württemberg

European Union's Horizon 2020 research and innovation program

European Union’s Horizon 2020 research and innovation program

EU H2020

Ministery of Science, Research and the Arts Baden-Württemberg

Fraunhofer Institute for High Speed Dynamics (EMI)

Publisher

Springer Science and Business Media LLC

Subject

General Environmental Science

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