A Dynamic Bayesian Network Structure for Joint Diagnostics and Prognostics of Complex Engineering Systems

Lewis, Austin D.; Groth, Katrina M.

doi:10.3390/a13030064

Cited by 16 publications

(5 citation statements)

References 31 publications

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“…There are many results applying ML to the past performance data of the equipment, see surveys [10][11][12] for comprehensive overviews. The existing ML methodologies for PdM are based on methods such as Support Vector Machines [6,[13][14][15][16][17][18], k-Nearest Neighbors [6,13,16], Artificial Neural Networks and Deep Learning [16,19,20], stochastic processes [21], K-means [13,16,22], Bayesian reasoning [23]. Ensemble methodologies where several methods are used and the weighted average of their predictions are reported in e.g.…”

Section: Examplementioning

confidence: 99%

Relaxed Rule-Based Learning for Automated Predictive Maintenance: Proof of Concept

Razgon

Mousavi

2020

Algorithms

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In this paper we propose a novel approach of rule learning called Relaxed Separate-and- Conquer (RSC): a modification of the standard Separate-and-Conquer (SeCo) methodology that does not require elimination of covered rows. This method can be seen as a generalization of the methods of SeCo and weighted covering that does not suffer from fragmentation. We present an empirical investigation of the proposed RSC approach in the area of Predictive Maintenance (PdM) of complex manufacturing machines, to predict forthcoming failures of these machines. In particular, we use for experiments a real industrial case study of a Continuous Compression Moulding (CCM) machine which manufactures the plastic bottle closure (caps) in the beverage industry. We compare the RSC approach with a Decision Tree (DT) based and SeCo algorithms and demonstrate that RSC significantly outperforms both DT based and SeCo rule learners. We conclude that the proposed RSC approach is promising for PdM guided by rule learning.

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Section: Examplementioning

confidence: 99%

Relaxed Rule-Based Learning for Automated Predictive Maintenance: Proof of Concept

Razgon

Mousavi

2020

Algorithms

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“…Each θ i represents a conditional probability distribution p ( X i | Pa i ) in which Pa i are the parents of X i in the BN structure (Koller and Friedman, 2009 ). Using the chain rule from statistics, θ can be used to calculate the joint probability distribution of all specified variables as Lewis and Groth ( 2020 ):…”

Section: Bayesian Networkmentioning

confidence: 99%

Data-Driven Network Dynamical Model of Rat Brains During Acute Ictogenesis

Tsukahara

Júnior

Barth

et al. 2022

Front. Neural Circuits

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Epilepsy is one of the most common neurological disorders worldwide. Recent findings suggest that the brain is a complex system composed of a network of neurons, and seizure is considered an emergent property resulting from its interactions. Based on this perspective, network physiology has emerged as a promising approach to explore how brain areas coordinate, synchronize and integrate their dynamics, both under perfect health and critical illness conditions. Therefore, the objective of this paper is to present an application of (Dynamic) Bayesian Networks (DBN) to model Local Field Potentials (LFP) data on rats induced to epileptic seizures based on the number of arcs found using threshold analytics. Results showed that DBN analysis captured the dynamic nature of brain connectivity across ictogenesis and a significant correlation with neurobiology derived from pioneering studies employing techniques of pharmacological manipulation, lesion, and modern optogenetics. The arcs evaluated under the proposed approach achieved consistent results based on previous literature, in addition to demonstrating robustness regarding functional connectivity analysis. Moreover, it provided fascinating and novel insights, such as discontinuity between forelimb clonus and generalized tonic-clonic seizure (GTCS) dynamics. Thus, DBN coupled with threshold analytics may be an excellent tool for investigating brain circuitry and their dynamical interplay, both in homeostasis and dysfunction conditions.

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“…Dynamic BN is one of the widely used dynamic methods for reliability analysis of complex systems, which enables the reliability estimation based on a temporal aspect 158 . Lewis and Groth 197 investigated the capabilities of dynamic BNs for diagnostics and prognostics of complex engineered systems. Yu et al 196 .…”

Section: Critical Review Of Diagnostic and Prognostics Applications To Complex Systemsmentioning

confidence: 99%

Diagnostics and prognostics for complex systems: A review of methods and challenges

Soleimani

Campean

Neagu

2021

Quality & Reliability Eng

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Diagnostics and prognostics have a significant role in the reliability enhancement of systems and are focused topics of active research. Engineered systems are becoming more complex and are subjected to miscellaneous failure modes that impact adversely their performability. This ever‐increasing complexity makes fault diagnostics and prognostics challenging for the system‐level functions. A significant number of successes have been achieved and acknowledged in some review papers; however, these reviews rarely focused on application to complex engineered systems nor provided a systematic review of diverse techniques and approaches to address the related challenges. To bridge the gap, this paper first presents a review to systematically cover the general concepts and recent development of various diagnostics and prognostics approaches, along with their strengths and shortcomings for the application of diverse engineered systems. Afterwards, given the characteristics of complex systems, the applicability of different techniques and methods that are capable to address the features of complex systems are reviewed and discussed, and some of the recent achievements in the literature are introduced. Finally, the unaddressed challenges are discussed by taking into account the characteristics of automotive systems as an example of complex systems. In addition, future development and potential research trends are offered to address those challenges. Consequently, this review provides a systematic view of the state‐of‐the‐art and case studies with a reference value for scholars and practitioners.

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A Dynamic Bayesian Network Structure for Joint Diagnostics and Prognostics of Complex Engineering Systems

Cited by 16 publications

References 31 publications

Relaxed Rule-Based Learning for Automated Predictive Maintenance: Proof of Concept

Relaxed Rule-Based Learning for Automated Predictive Maintenance: Proof of Concept

Data-Driven Network Dynamical Model of Rat Brains During Acute Ictogenesis

Diagnostics and prognostics for complex systems: A review of methods and challenges

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