Leveraging weakly-hard constraints for improving system fault tolerance with functional and timing guarantees

Hengyi Liang, Zhilu Wang, Ruochen Jiao, Qi Zhu

Research output: Contribution to journalArticlepeer-review


Many safety-critical real-time systems operate under harsh environment and are subject to soft errors caused by transient or intermittent faults. It is critical and yet often very challenging to apply fault tolerance techniques in these systems, due to their resource limitations and stringent constraints on timing and functionality. In this work, we leverage the concept of weakly-hard constraints, which allows task deadline misses in a bounded manner, to improve system’s capability to accommodate fault tolerance techniques while ensuring timing and functional correctness. In particular, we a) quantitatively measure control cost under different deadline hit/miss scenarios and identify weak-hard constraints that guarantee control stability; b) employ typical worst-case analysis (TWCA) to bound the number of deadline misses and approximate system control cost; c) develop an event-based simulation method to check the task execution pattern and evaluate system control cost for any given solution; and d) develop a meta-heuristic algorithm that consists of heuristic methods and a simulated annealing procedure to explore the design space. Our experiments on an industrial case study and a set of synthetic examples demonstrate the effectiveness of our approach.

Original languageEnglish (US)
JournalUnknown Journal
StatePublished - Aug 14 2020

ASJC Scopus subject areas

  • General

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