Reduction of Petri net maintenance modeling complexity via Approximate Bayesian Computation

Chiachío, Manuel; Saleh, Ali; Naybour, Susannah; Chiachío, Juan; Andrews, John

doi:10.1016/j.ress.2022.108365

All Outputs (6)

A Petri net model-based resilience analysis of nuclear power plants under the threat of natural hazards (2022)
Journal Article
Yan, R., Dunnett, S., & Andrews, J. (2023). A Petri net model-based resilience analysis of nuclear power plants under the threat of natural hazards. Reliability Engineering and System Safety, 230, Article 108979. https://doi.org/10.1016/j.ress.2022.108979

Due to global climate change, nuclear power plants are increasingly exposed to the threats of extreme natural disasters. In this paper, a resilience engineering approach is applied to tackle all aspects of nuclear safety, spanning from design, operat... Read More about A Petri net model-based resilience analysis of nuclear power plants under the threat of natural hazards.

Dynamic and dependent tree theory (D2T2): A framework for the analysis of fault trees with dependent basic events (2022)
Journal Article
Andrews, J., & Tolo, S. (2023). Dynamic and dependent tree theory (D2T2): A framework for the analysis of fault trees with dependent basic events. Reliability Engineering and System Safety, 230, Article 108959. https://doi.org/10.1016/j.ress.2022.108959

Fault tree analysis remains the most commonly employed method, particularly in the safety critical industries, to predict the probability or frequency of system failures. Whilst it has its origins back in the 1960s, the assumptions employed in the ma... Read More about Dynamic and dependent tree theory (D2T2): A framework for the analysis of fault trees with dependent basic events.

Optimisation of nuclear reactor primary coolant design and maintenance parameters (2022)
Journal Article
Wootton, M. J., Zhou, Y., Andrews, J. D., Smith, R., Arul, A. J., Vinod, G., …Garg, V. (2024). Optimisation of nuclear reactor primary coolant design and maintenance parameters. Applied Stochastic Models in Business and Industry, 40(3), 725-745. https://doi.org/10.1002/asmb.2722

An optimisation methodology is presented using the primary coolant circulation system of a nuclear reactor as its case study, the purpose of which is to find combinations of selected design and maintenance parameters to maximise the reactor safety an... Read More about Optimisation of nuclear reactor primary coolant design and maintenance parameters.

An integrated modelling framework for complex systems safety analysis (2022)
Journal Article
Tolo, S., & Andrews, J. (2022). An integrated modelling framework for complex systems safety analysis. Quality and Reliability Engineering International, 38(8), 4330-4350. https://doi.org/10.1002/qre.3212

The ever-increasing complexity of engineering systems has fuelled the need for novel and efficient computational tools able to enhance the accuracy of current modelling strategies for industrial systems. Indeed, traditional Fault and Event Tree techn... Read More about An integrated modelling framework for complex systems safety analysis.

A Petri net asset management framework for railway switches and crossings (2022)
Journal Article
Litherland, J., & Andrews, J. (2022). A Petri net asset management framework for railway switches and crossings. Proceedings of the Institution of Mechanical Engineers, Part F: Journal of Rail and Rapid Transit, https://doi.org/10.1177/09544097221110970

Switches and Crossings (S&C) are a fundamental part of any railway network, they allow trains to switch between tracks and to cross over other tracks. They consist of various electrical and mechanical components to which there is a substantial mainte... Read More about A Petri net asset management framework for railway switches and crossings.

Reduction of Petri net maintenance modeling complexity via Approximate Bayesian Computation (2022)
Journal Article
Chiachío, M., Saleh, A., Naybour, S., Chiachío, J., & Andrews, J. (2022). Reduction of Petri net maintenance modeling complexity via Approximate Bayesian Computation. Reliability Engineering and System Safety, 222, Article 108365. https://doi.org/10.1016/j.ress.2022.108365

The accurate modeling of engineering systems and processes using Petri nets often results in complex graph representations that are computationally intensive, limiting the potential of this modeling tool in real life applications. This paper presents... Read More about Reduction of Petri net maintenance modeling complexity via Approximate Bayesian Computation.