Aníbal Bregón scite author profile

Abstract-Within systems health management, prognostics focuses on predicting the remaining useful life of a system. In the model-based prognostics paradigm, physics-based models are constructed that describe the operation of a system and how it fails. Such approaches consist of an estimation phase, in which the health state of the system is first identified, and a prediction phase, in which the health state is projected forward in time to determine the end of life. Centralized solutions to these problems are often computationally expensive, do not scale well as the size of the system grows, and introduce a single point of failure. In this paper, we propose a novel distributed model-based prognostics scheme that formally describes how to decompose both the estimation and prediction problems into independent local subproblems whose solutions may be easily composed into a global solution. The decomposition of the prognostics problem is achieved through structural decomposition of the underlying models. The decomposition algorithm creates from the global system model a set of local submodels suitable for prognostics. Independent local estimation and prediction problems are formed based on these local submodels, resulting in a scalable distributed prognostics approach that allows the local subproblems to be solved in parallel, thus offering increases in computational efficiency. Using a centrifugal pump as a case study, we perform a number of simulation-based experiments to demonstrate the distributed approach, compare the performance with a centralized approach, and establish its scalability.

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An event-based distributed diagnosis framework using structural model decomposition

Bregón

Daigle

Roychoudhury

et al. 2014

Artificial Intelligence

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Early Fault Classification in Dynamic Systems Using Case-Based Reasoning

Bregón

Simón

Rodrı́guez

et al. 2006

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A structural model decomposition framework for systems health management

Roychoudhury

Daigle

Bregón

et al. 2013

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Abstract-Systems health management (SHM) is an important set of technologies aimed at increasing system safety and reliability by detecting, isolating, and identifying faults; and predicting when the system reaches end of life (EOL), so that appropriate fault mitigation and recovery actions can be taken. Model-based SHM approaches typically make use of global, monolithic system models for online analysis, which results in a loss of scalability and efficiency for large-scale systems. Improvement in scalability and efficiency can be achieved by decomposing the system model into smaller local submodels and operating on these submodels instead. In this paper, the global system model is analyzed offline and structurally decomposed into local submodels. We define a common model decomposition framework for extracting submodels from the global model. This framework is then used to develop algorithms for solving model decomposition problems for the design of three separate SHM technologies, namely, estimation (which is useful for fault detection and identification), fault isolation, and EOL prediction. We solve these model decomposition problems using a three-tank system as a case study.

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Minimal Structurally Overdetermined sets for residual generation: A comparison of alternative approaches

Armengol

Bregón

Escobet

et al. 2009

IFAC Proceedings Volumes

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Aníbal Bregón

Distributed Prognostics Based on Structural Model Decomposition

An event-based distributed diagnosis framework using structural model decomposition

Early Fault Classification in Dynamic Systems Using Case-Based Reasoning

A structural model decomposition framework for systems health management

Minimal Structurally Overdetermined sets for residual generation: A comparison of alternative approaches

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