自主船舶机械可靠性评估的多项式过程树

A multinomial process tree for reliability assessment of machinery in autonomous ships

Reliability Engineering and System Safety · 2021
被引 72
ABS 3

中文导读

提出一种基于多项式过程树和分层贝叶斯推断的方法,评估自主船舶无人值守机械系统的可靠性并预测故障率,帮助判断机械装置是否适合用于无人船。

Abstract

Maritime Autonomous Surface Ships have received a significant amount of attention in recent projects. They promise a reduction in marine accidents and mitigation of human errors. Most of the ongoing research effort is directed toward autonomous navigation and cybersecurity. However, the importance of a machinery plant in the engine room that can operate reliably without human attendance is hardly investigated. To prevent failures in such systems and extend the interval between required human interventions, it is essential to improve their reliability. This paper aims to present a systematic approach to evaluate the reliability of an autonomous system under the influence of uncertain disruptions and to predict failure rates of unattended machinery plants. A Multinomial Process Tree is used to model failures in the main failure-sensitive components. Hierarchical Bayesian Inference is adopted to facilitate the prediction of frequencies of disruptive events and estimate the entire system's failure rate. The outcome of this research enables design strategies to improve the reliability of autonomous ships and prevent Fatal Technical Failure during the operation. This allows assessing whether a given machinery plant is sufficiently reliable to be used on unmanned ships. A case study is considered to demonstrate the application of the presented method.

自主船舶可靠性工程故障预测贝叶斯推断