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Can we develop holistic approaches to delivering cyber-physical systems security?

Published online by Cambridge University Press:  03 May 2024

John Fitzgerald*
Affiliation:
School of Computing, Newcastle University, Newcastle upon Tyne, UK
Charles Morisset
Affiliation:
School of Computing, Newcastle University, Newcastle upon Tyne, UK
*
Corresponding author: John Fitzgerald; Email: [email protected]
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Extract

Cyber-Physical Systems (CPSs) combine cyber, physical and human activities through computing and network technologies, creating opportunities for benign and malign actions that affect organisations in both the physical and computational spheres. The US National Cyber Security Strategy (US White House, 2023) warns that this exposes crucial systems to disruption over a wide CPS attack surface. The UK National Cyber Security Centre Annual Review (UK National Cyber Security Centre, 2023) acknowledges that, although some organisations are evolving ‘a more holistic view of critical systems rather than purely physical assets’, this is not reflected in governance structures that still tend to treat cyber and physical security separately.

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Question
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This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
© The Author(s), 2024. Published by Cambridge University Press

Context: Holistic CPS security

Cyber-Physical Systems (CPSs) combine cyber, physical and human activities through computing and network technologies, creating opportunities for benign and malign actions that affect organisations in both the physical and computational spheres. The US National Cyber Security Strategy (US White House, 2023) warns that this exposes crucial systems to disruption over a wide CPS attack surface. The UK National Cyber Security Centre Annual Review (UK National Cyber Security Centre, 2023) acknowledges that, although some organisations are evolving ‘a more holistic view of critical systems rather than purely physical assets’, this is not reflected in governance structures that still tend to treat cyber and physical security separately.

This RQ focuses on developing and evaluating holistic approaches to CPS security. Such approaches have both technical and non-technical elements. They are cross-domain in that they span computational and physical processes and their interactions, supporting the examination of overall system-level effects. They are also explainable in that they support decision-making at multiple levels ‘from the circuit board to the executive board’.

For example, chemical process operators may wish to address the risk of plant damage resulting from digital attacks on sensors and control units. A holistic solution might model and verify physical failsafe mechanisms, software-based authorisation for potentially dangerous actions and governance changes restricting remote access software. It would help explain risks and trade-offs of cost and business implications through techniques such as modelling, simulation, dashboards and visualisation that engage the full range of stakeholders.

There are technical and non-technical challenges in delivering holistic CPS security.

Scope

We welcome contributions that advance holistic approaches to CPS security. These should help to address the challenges of cross-domain and explainable security outlined above, identifying which stakeholders (e.g., designers, users and governance) generate and use results within systems engineering activities (e.g., requirements elicitation, design, implementation, and defence). Topics in scope include but are not limited to:

  • Foundations for holistic CPS security.

  • Well-founded methods and tools for engineering cross-domain CPS security, including effectively integrating existing methods and tools.

  • Authentication and evidence supporting trust in CPSs.

  • Architectures, methods and tools for analysing and ensuring CPS security and privacy.

  • Methods for assessing and increasing CPS resilience and survivability, including redundancy and improved incident response.

  • Temporal performance as critical to CPS resilience.

  • Maintenance of security-related properties under change in computational and physical processes.

  • Domain-relevant tensions, for example, security/usability in medical devices.

  • Adaptability and context awareness: maintenance of up-to-date security mechanisms.

  • Testbeds and synthetic datasets development of realistic datasets and testbeds that are open and accessible for benchmarking, simulation and proof-of-concept studies.

  • Contributions to stakeholder decision-making processes.

How to contribute to this Question

If you believe you can contribute to answering this Question with your research outputs, find out how to submit them in the Instructions for authors (https://www.cambridge.org/core/journals/research-directions-cyber-physical-systems/information/author-instructions/preparing-your-materials). This journal publishes Results, Analyses, Impact papers and additional content such as preprints and ‘grey literature’. Questions will be closed when the editors agree that enough has been published to answer the Question so before submitting, check if this is still an active Question. If it is closed, another relevant Question may be currently open, so do review all the open Questions in your field. For any further queries, check the information pages (https://www.cambridge.org/core/journals/research-directions-cyber-physical-systems/information/about-this-journal) or contact this email ().

Competing interests

None.

References

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