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Integration of functional resonance analysis method and reinforcement learning for updating and optimizing emergency procedures in variable environments

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  • Liu, Xuan
  • Meng, Huixing
  • An, Xu
  • Xing, Jinduo

Abstract

Blowout accidents are prone to generate personal casualties, property losses, and even environmental disasters. To alleviate the consequences of accidents, it is essential to conduct effective emergency operations and update emergency schemes when necessary. In the update of the emergency plan, how to effectively optimize the allocation of resources is an open question. To deal with above difficulties, we propose a hybrid methodology by integrating the functional resonance analysis method (FRAM) and reinforcement learning (RL) for updating and optimizing emergency schemes. In the proposed methodology, FRAM is utilized to model the emergency response process based on function, variability, and coupling. Since the environment of emergency operations usually changes, RL is introduced to update emergency schemes that are constructed by FRAM. The selection of reward value by the agent reflects the variability of functional nodes in the FRAM model. To optimize emergency schemes, the interval analytic hierarchy process is integrated with multi-objective decision-making to analyze the duration, cost, and exposure risk of emergency operations. The installation of a capping stack, an emergency technique for deepwater blowout accidents, is employed to illustrate the applicability of the methodology. The results show that the proposed model is beneficial to determine emergency actions adapted to condition or scenario change in accidents.

Suggested Citation

  • Liu, Xuan & Meng, Huixing & An, Xu & Xing, Jinduo, 2024. "Integration of functional resonance analysis method and reinforcement learning for updating and optimizing emergency procedures in variable environments," Reliability Engineering and System Safety, Elsevier, vol. 241(C).
    • Handle: RePEc:eee:reensy:v:241:y:2024:i:c:s0951832023005690
    DOI: 10.1016/j.ress.2023.109655
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    References listed on IDEAS

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    Cited by:

    1. Wang, Jiaxin & Fan, Hanwen & Chang, Zheng & Lyu, Jing, 2025. "Unleashing data power: Driving maritime risk analysis with Bayesian networks," Reliability Engineering and System Safety, Elsevier, vol. 264(PA).
    2. Li, Tianfei & Huang, Wencheng, 2025. "Risk-accident emergence and prevention method of high-speed railway system: based on an improved Functional Resonance Analysis Method," Reliability Engineering and System Safety, Elsevier, vol. 264(PB).
    3. Patriarca, Riccardo & Simone, Francesco & Artime, Oriol & Saurin, Tarcisio Abreu & Fogliatto, Flávio Sanson, 2024. "Conceptualization of a functional random walker for the analysis of socio-technical systems," Reliability Engineering and System Safety, Elsevier, vol. 251(C).
    4. Wu, Shengnan & Cui, Rong & Zhang, Laibin, 2026. "Uncertain node-state PI-DBN: A novel framework for predictive modeling of real-time blowout risk in deepwater drilling," Reliability Engineering and System Safety, Elsevier, vol. 267(PA).
    5. Yasue, Naruki & Sato, Go & Sawaragi, Tetsuo, 2026. "Extracting knowledge of workers by identifying performance variability using functional resonance analysis method," Reliability Engineering and System Safety, Elsevier, vol. 265(PA).
    6. Gursel, Ezgi & Madadi, Mahboubeh & Coble, Jamie Baalis & Agarwal, Vivek & Yadav, Vaibhav & Boring, Ronald L. & Khojandi, Anahita, 2025. "The role of AI in detecting and mitigating human errors in safety-critical industries: A review," Reliability Engineering and System Safety, Elsevier, vol. 256(C).
    7. Zhang, Yanping & Cai, Baoping & Ahmed, Salim & Wang, Chengyushu & Li, Qingping & Gao, Lei, 2025. "A resilience-driven emergency maintenance operation scheme optimization method based on risk," Reliability Engineering and System Safety, Elsevier, vol. 254(PA).

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