Fault Prognostic Based on Hybrid Method of State Judgment and Regression

Li, Xiaobin; Qian, Jiansheng; Wang, Gai-Ge

doi:10.1155/2013/149562

Cited by 16 publications

(11 citation statements)

References 18 publications

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“…However, as mention in Section 5.2.3 these models still face problems as their results remain non-explicative [101]. Within the examples found in this literature review [159], presents a multi-layer perceptron and a radial basis function neural network in a parallel model to estimate the remaining useful life from input sensors on simulated jet-engines data [160]. performs fault prognostic with a mixture of Gaussian hidden Markov model (stochastic model) to evaluate the health index and fixed size least squares support vector regression (statistical model) for remaining useful life estimation on the same jetengines simulated data.…”

Section: Multiple Data-driven Modelsmentioning

confidence: 98%

Towards multi-model approaches to predictive maintenance: A systematic literature survey on diagnostics and prognostics

Jimenez

Schwartz

Vingerhoeds

et al. 2020

Journal of Manufacturing Systems

128

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The use of a modern technological system requires a good engineering approach, optimized operations, and proper maintenance in order to keep the system in an optimal state. Predictive maintenance focuses on the organization of maintenance actions according to the actual health state of the system, aiming at giving a precise indication of when a maintenance intervention will be necessary. Predictive maintenance is normally implemented by means of specialized computational systems that incorporate one of several models to fulfil diagnostics and prognostics tasks. As complexity of technological systems increases over time, single-model approaches hardly fulfil all functions and objectives for predictive maintenance systems. It is increasingly common to find research studies that combine different models in multi-model approaches to overcome complexity of predictive maintenance tasks, considering the advantages and disadvantages of each single model and trying to combine the best of them. These multi-model approaches have not been extensively addressed by previous review studies on predictive maintenance. Besides, many of the possible combinations for multi-model approaches remain unexplored in predictive maintenance applications; this offers a vast field of opportunities when architecting new predictive maintenance systems. This systematic survey aims at presenting the current trends in diagnostics and prognostics giving special attention to multi-model approaches and summarizing the current challenges and research opportunities.

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Section: Multiple Data-driven Modelsmentioning

confidence: 98%

Towards multi-model approaches to predictive maintenance: A systematic literature survey on diagnostics and prognostics

Jimenez

Schwartz

Vingerhoeds

et al. 2020

Journal of Manufacturing Systems

128

View full text Add to dashboard Cite

show abstract

“…The extraction process from primitive event to basic event can be described by the pseudo code shown in Algorithm 1. / / represent the material number (4) if the object was first read by reader 1 at 1 //Reader 1 represent the entrance reader of the process line (5) then Create event BE 0,1 = ( .ID, 0 , 1(ts), launch) //New product launch (6) else if the object was last read by reader at 2 //Reader represent the exit reader of the process line (7) then Create event BE ,4 = ( .ID, , 2(te), finish) //The product is finished (8) else the object was read by reader at 3 //The reader in the process line (9) if first read (10) then Create event BE ,1 = ( .ID, , 3(ts), infield) //The infield event (11) and BE ,2 = ( .ID, −1 , 1(ts), 3(te), stay) //The stay event (12) and BE ,3 = ( .ID, −1 , 3(te), outfield) //The outfield event (13) Else Create event BE ,2 = ( .ID, −1 , 1(ts), 3( now), stay) //The stay event Algorithm 1: The extraction process from primitive event to basic event.…”

Section: Extraction Process Of Critical Eventmentioning

confidence: 99%

“…. ., attr , //Calculation based on the different complex event rule (9) Ts as ts, (10) Te as te (11) From CE, Calculation Process (12) Where CE.process.ID = CrE.process.ID (13) or CE.WIP.ID = part of product.ID Algorithm 3: The extraction process from complex event to critical event.…”

Section: Real-time Progress and Deviation Analysismentioning

confidence: 99%

“…Zappia et al [12] proposed a lightweight and extensible complex event processing system based on a layered architectural design to extract meaningful events from raw data streams originated by sensing infrastructures. Li et al [13] presented a hybrid method of mixture of Gaussian hidden Markov model (MG-HMM) and fixed size least squares support vector regression (FS-LSSVR) for fault prognostic in equipment health management system. Xu and Liu [14] proposed a smart metering network system based on the IPv6 network protocol and ZigBee protocol for residential power measurement.…”

Section: Introductionmentioning

confidence: 99%

“…For the real-time manufacturing information processing, the event model has been widely adopted as seen in [9][10][11][12]. References [13][14][15][16] describe some predicted models for manufacturing exceptions. Obviously, the event model has advantages in dealing with the events which occurred at the Auto-ID devices.…”

Section: Introductionmentioning

confidence: 99%

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Real-Time Shop-Floor Production Performance Analysis Method for the Internet of Manufacturing Things

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Liu

et al. 2014

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Typical challenges that manufacturing enterprises are facing now are compounded by lack of timely, accurate, and consistent information of manufacturing resources. As a result, it is difficult to analyze the real-time production performance for the shopfloor. In this paper, the definition and overall architecture of the internet of manufacturing things is presented to provide a new paradigm by extending the techniques of internet of things (IoT) to manufacturing field. Under this architecture, the real-time primitive events which occurred at different manufacturing things such as operators, machines, pallets, key materials, and so forth can be easily sensed. Based on these distributed primitive events, a critical event model is established to automatically analyze the real-time production performance. Here, the up-level production performance analysis is regarded as a series of critical events, and the real-time value of each critical event can be easily calculated according to the logical and sequence relationships among these multilevel events. Finally, a case study is used to illustrate how to apply the designed methods to analyze the real-time production performance.

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Rotating Machine Prognostics Using System-Level Models

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The prognostics of rotating machines is crucial for the reliable and safe operation as well as maximizing usage time. Many reliability studies focus on component-level prognostics. However, in many cases, the desired information is the residual life of the system, rather than the lifetimes of its constituent components. This review paper focuses on system-level prognostic techniques that can be applied to rotating machinery. These approaches use multi-dimensional condition monitoring data collected from different parts of the system of interest to predict the remaining useful life at the system level. The working principles, merits and drawbacks as well as field of applications of these techniques are summarized.

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Fault Prognostic Based on Hybrid Method of State Judgment and Regression

Cited by 16 publications

References 18 publications

Towards multi-model approaches to predictive maintenance: A systematic literature survey on diagnostics and prognostics

Towards multi-model approaches to predictive maintenance: A systematic literature survey on diagnostics and prognostics

Real-Time Shop-Floor Production Performance Analysis Method for the Internet of Manufacturing Things

Rotating Machine Prognostics Using System-Level Models

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