Synthesis of Decision Logic for Predictive Maintenance of a Marine Diesel Engine Based on Unconditional Control-Reliability Indicators

Ссылка для цитирования (ENG)

Tukeev Dmitry L. , Afanaseva O. V., Khatrusov A. S. Synthesis of Decision Logic for Predictive Maintenance of a Marine Diesel Engine Based on Unconditional Control-Reliability Indicators Eng. 2026. №7. pp. 1-32. https://www.mdpi.com/2673-4117/7/5/190

Авторы

Tukeev Dmitry L. , Afanaseva O. V., Khatrusov A. S.

Журнал

Eng

Год

2026

Ключевые слова

Аннотация

This paper proposes a formal framework for synthesizing multi-stage condition-based maintenance (CBM) decision logic for marine diesel monitoring systems. The design object is treated not as a single threshold or classifier output, but as an implementable decision logic with explicit stages of data-quality gating, thresholding, confirmation, fusion, and temporal filtering. Decision quality is evaluated using unconditional control-reliability indicators (CRIs) under a prescribed prior probability of rare abnormal events within a unified Monte Carlo verification protocol. Within a simplified Gaussian surrogate model, we compare baseline thresholding, repeated-measurement averaging, within-path confirmation, and measurement-level fusion. For the reported reference configuration, averaging five repeated measurements yields the largest reduction in the raw error criterion, “2 out of 3” confirmation provides a smaller but consistent improvement, and two-path multi-fidelity fusion is beneficial only after calibration toward the more informative path. The results show that, under rare abnormal events and limited measurement accuracy, decision quality is determined primarily by calibration of the multi-stage channel-level logic rather than by thresholding alone