Enhancing Cyber-Resilience in Self-Healing Cyber-Physical Systems with Implicit Guarantees

2023 IEEE International Conference on Cyber Security and Resilience (CSR) Pub Date : 2023-05-15 DOI:10.1109/CSR57506.2023.10224943

Randolph Loh, V. Thing

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Abstract

Self-Healing Cyber-Physical Systems (SH-CPS) effectively recover from system perceived failures without human intervention. They ensure a level of resilience and tolerance to unforeseen situations that arise from intrinsic system and component degradation, errors, or malicious attacks. Implicit redundancy can be exploited in SH -CPS to structurally adapt without the need to explicitly duplicate components. However, implicitly redundant components do not guarantee the same level of dependability as the primary component used to provide for a given function. Additional processes are needed to restore critical system functionalities as desired. This work introduces implicit guarantees to ensure the dependability of implicitly redundant components and processes. Implicit guarantees can be obtained through inheritance and decomposition. Therefore, a level of dependability can be guaranteed in SH -CPS after adaptation and recovery while complying with requirements. We demonstrate compliance with the requirement guarantees while ensuring resilience in SH-CPS.

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增强具有隐式保证的自愈网络物理系统的网络弹性

自我修复的网络物理系统(SH-CPS)可以在没有人为干预的情况下有效地从系统感知到的故障中恢复。它们确保了一定程度的弹性和对由固有系统和组件退化、错误或恶意攻击引起的不可预见情况的容忍度。SH -CPS可以利用隐式冗余进行结构调整，而不需要显式地复制组件。但是，隐式冗余组件不能保证与用于提供给定功能的主组件具有相同级别的可靠性。需要额外的进程来恢复所需的关键系统功能。这项工作引入了隐式保证，以确保隐式冗余组件和过程的可靠性。隐式保证可以通过继承和分解得到。因此，在符合要求的情况下，SH -CPS在适应和恢复后可以保证一定程度的可靠性。我们在确保SH-CPS弹性的同时，展示了对需求保证的遵从性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2023 IEEE International Conference on Cyber Security and Resilience (CSR)

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