Fault-Tolerance by Resilient State Transition for Collaborative Cyber-Physical Systems

Abstract: Collaborative Cyber-Physical Systems (CCPS) are systems where several individual cyber-physical systems collaborate to perform a single task. The safety of a single Cyber-Physical System (CPS) can be achieved by applying a safety mechanism and following standard processes defined in ISO 26262 and IEC 61508. However, due to heterogeneity, complexity, variability, independence, self-adaptation, and dynamic nature, functional operations for CCPS can threaten system safety. In contrast to fail-safe systems, where,… Show more

“…Mao et al [5] developed two metrics, including the resilience of cumulative performance loss and the resilience of restoration rapidity, to measure the resilience of the supply chain networks. Ali et al [6] proposed an approach that considers the resilient behavior of collaborative Cyber-Physical systems to achieve the fail-operational goal in autonomous platooning systems. Zarei et al [7] developed a fuzzy hybrid multi-criteria decision-making model for quantifying resilience.…”

Data-Driven Maintenance Priority and Resilience Evaluation of Performance Loss in a Main Coolant System

“…Mao et al [5] developed two metrics, including the resilience of cumulative performance loss and the resilience of restoration rapidity, to measure the resilience of the supply chain networks. Ali et al [6] proposed an approach that considers the resilient behavior of collaborative Cyber-Physical systems to achieve the fail-operational goal in autonomous platooning systems. Zarei et al [7] developed a fuzzy hybrid multi-criteria decision-making model for quantifying resilience.…”

Data-Driven Maintenance Priority and Resilience Evaluation of Performance Loss in a Main Coolant System

Modeling and safety analysis for collaborative safety-critical systems using hierarchical colored Petri nets

Unraveling Spatio-Temporal Behavior in Collaborative Cyber-Physical Systems Inspired by Social Insects