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A. Guillén
Authors are members of Intelligent Maintenance System research group (SIM) of the University of Seville, Spain

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Journal article
Published: 18 December 2020 in IFAC-PapersOnLine
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Nowadays, no business activity escapes the fourth industrial revolution, called industry 4.0, which is characterized by digitalization of processes. The possibility of simultaneously having systems with greater interconnection, more information and greater flexibility, allows companies to have a clearer view of their processes and consequently improve their effectiveness and efficiency. The digital transformation can no longer be based simply on making the processes more efficient, but on creating more sustainable and profitable customer relationships, continuously aligning the value of the product with the changing customer requirements. Even though managing assets over the Internet is increasingly common, much effort is needed to identify the functionality that should be provided by these platforms to enhance existing asset management practices. The effort of IT vendors is focused on the development of IoT platforms, which allow, among other functions, to create a connection between machinery and digital systems, protect all devices and data against hacking or attacks, control operations and maintenance of equipment or perform different analyses of assets or systems. The aim of this paper is to understand the functionalities of the existing IAMP platforms, providing a system that evaluates these functionalities based on the business objectives from the point of view of asset management. This methodology allows maintenance managers guiding the evolution of the life cycle of their assets according to the business value conception. This makes this methodology especially suitable for supporting new challenging scenarios of maintenance management. In this paper we first talk about the structure of an IAMP, then how they integrate the asset management model and a summary of the features and modules that have the most known IAMP platforms. Finally, an evaluation system of IAMP platforms and a case study is presented based on their content for asset management.

ACS Style

Pablo Martínez-Galán; Adolfo Crespo; Antonio de la Fuente; Antonio Guillén. A new model to compare intelligent asset management platforms (IAMP). IFAC-PapersOnLine 2020, 53, 13 -18.

AMA Style

Pablo Martínez-Galán, Adolfo Crespo, Antonio de la Fuente, Antonio Guillén. A new model to compare intelligent asset management platforms (IAMP). IFAC-PapersOnLine. 2020; 53 (3):13-18.

Chicago/Turabian Style

Pablo Martínez-Galán; Adolfo Crespo; Antonio de la Fuente; Antonio Guillén. 2020. "A new model to compare intelligent asset management platforms (IAMP)." IFAC-PapersOnLine 53, no. 3: 13-18.

Journal article
Published: 22 July 2020 in Energies
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Maintenance Management is a key pillar in companies, especially energy utilities, which have high investments in assets, and so for its proper contribution has to be integrated and aligned with other departments in order to conserve the asset value and guarantee the services. In this line, Intelligent Assets Management Platforms (IAMP) are defined as software platforms to collect and analyze data from industrial assets. They are based on the use of digital technologies in industry. Beside the fact that monitoring and managing assets over the internet is gaining ground, this paper states that the IAMPs should also support a much better balanced and more strategic view in existing asset management and concretely in maintenance management. The real transformation can be achieved if these platforms help to understand business priorities in work and investments. In this paper, we first discuss about the factors explaining IAMP growth, then we explain the importance of considering, well in advance, those managerial aspects of the problem, for proper investments and suitable digital transformation through the adoption and use of IAMPs. A case study in the energy sector is presented to map, or to identify, those platform modules and Apps providing important value-added features to existing asset management practices. Later, attention is paid to the methodology used to develop the Apps’ data models from a maintenance point of view. To illustrate this point, a methodology for the development of the asset criticality analysis process data model is proposed. Finally, the paper includes conclusions of the work and relevant literature to this research.

ACS Style

Adolfo Crespo Marquez; Juan Francisco Gomez Fernandez; Pablo Martínez-Galán Fernández; Antonio Guillen Lopez. Maintenance Management through Intelligent Asset Management Platforms (IAMP). Emerging Factors, Key Impact Areas and Data Models. Energies 2020, 13, 3762 .

AMA Style

Adolfo Crespo Marquez, Juan Francisco Gomez Fernandez, Pablo Martínez-Galán Fernández, Antonio Guillen Lopez. Maintenance Management through Intelligent Asset Management Platforms (IAMP). Emerging Factors, Key Impact Areas and Data Models. Energies. 2020; 13 (15):3762.

Chicago/Turabian Style

Adolfo Crespo Marquez; Juan Francisco Gomez Fernandez; Pablo Martínez-Galán Fernández; Antonio Guillen Lopez. 2020. "Maintenance Management through Intelligent Asset Management Platforms (IAMP). Emerging Factors, Key Impact Areas and Data Models." Energies 13, no. 15: 3762.

Review
Published: 31 October 2019 in Energies
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Within the field of soft computing, intelligent optimization modelling techniques include various major techniques in artificial intelligence. These techniques pretend to generate new business knowledge transforming sets of "raw data" into business value. One of the principal applications of these techniques is related to the design of predictive analytics for the improvement of advanced CBM (condition-based maintenance) strategies and energy production forecasting. These advanced techniques can be used to transform control system data, operational data and maintenance event data to failure diagnostic and prognostic knowledge and, ultimately, to derive expected energy generation. One of the systems where these techniques can be applied with massive potential impact are the legacy monitoring systems existing in solar PV energy generation plants. These systems produce a great amount of data over time, while at the same time they demand an important effort in order to increase their performance through the use of more accurate predictive analytics to reduce production losses having a direct impact on ROI. How to choose the most suitable techniques to apply is one of the problems to address. This paper presents a review and a comparative analysis of six intelligent optimization modelling techniques, which have been applied on a PV plant case study, using the energy production forecast as the decision variable. The methodology proposed not only pretends to elicit the most accurate solution but also validates the results, in comparison with the different outputs for the different techniques.

ACS Style

Jesús Ferrero Bermejo; Juan Francisco Gómez Fernández; Rafael Pino; Adolfo Crespo Márquez; Antonio Jesús Guillén López. Review and Comparison of Intelligent Optimization Modelling Techniques for Energy Forecasting and Condition-Based Maintenance in PV Plants. Energies 2019, 12, 4163 .

AMA Style

Jesús Ferrero Bermejo, Juan Francisco Gómez Fernández, Rafael Pino, Adolfo Crespo Márquez, Antonio Jesús Guillén López. Review and Comparison of Intelligent Optimization Modelling Techniques for Energy Forecasting and Condition-Based Maintenance in PV Plants. Energies. 2019; 12 (21):4163.

Chicago/Turabian Style

Jesús Ferrero Bermejo; Juan Francisco Gómez Fernández; Rafael Pino; Adolfo Crespo Márquez; Antonio Jesús Guillén López. 2019. "Review and Comparison of Intelligent Optimization Modelling Techniques for Energy Forecasting and Condition-Based Maintenance in PV Plants." Energies 12, no. 21: 4163.

Journal article
Published: 08 March 2019 in IEEE Transactions on Network and Service Management
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ACS Style

Juan Fco. Gomez; Juan Francisco Gómez Fernández; Antonio J. Guillen; Adolfo Crespo Márquez. Risk-Based Criticality for Network Utilities Asset Management. IEEE Transactions on Network and Service Management 2019, 16, 755 -768.

AMA Style

Juan Fco. Gomez, Juan Francisco Gómez Fernández, Antonio J. Guillen, Adolfo Crespo Márquez. Risk-Based Criticality for Network Utilities Asset Management. IEEE Transactions on Network and Service Management. 2019; 16 (2):755-768.

Chicago/Turabian Style

Juan Fco. Gomez; Juan Francisco Gómez Fernández; Antonio J. Guillen; Adolfo Crespo Márquez. 2019. "Risk-Based Criticality for Network Utilities Asset Management." IEEE Transactions on Network and Service Management 16, no. 2: 755-768.

Journal article
Published: 01 March 2019 in Información tecnológica
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Se propone una técnica para la priorización de activos físicos que se basa en la contribución que hace cada uno de ellos al rendimiento global (throughput). La técnica presentada está basada en la Eficiencia del Rendimiento Global del Sistema (Overall Throughput Effectiveness, OTE) y relaciona la disponibilidad de cada equipo con su utilización y con el rendimiento global del sistema. La hipótesis es que, bajo la óptica del mantenimiento se pueden jerarquizar equipos en función del impacto que su indisponibilidad genera en el desempeño a nivel de fábrica. A través de un estudio de caso, basado en una planta de conminución chilena, se demuestra la viabilidad de la técnica y la posibilidad de analizar las tendencias que los impactos de los equipos muestran en el tiempo. Se concluye que la técnica puede ser utilizada para definir las políticas de mantenimiento, destinar recursos y revisar decisiones operativas, tales como mejorar los niveles de utilización y disponibilidad.

ACS Style

Orlando M. Durán; Vicente González-Prida; Adolfo Crespo; Antonio Guillén. Priorización de Activos Físicos centrado en el Rendimiento Global (Throughput) en una Planta de Chancado. Información tecnológica 2019, 30, 45 -56.

AMA Style

Orlando M. Durán, Vicente González-Prida, Adolfo Crespo, Antonio Guillén. Priorización de Activos Físicos centrado en el Rendimiento Global (Throughput) en una Planta de Chancado. Información tecnológica. 2019; 30 (2):45-56.

Chicago/Turabian Style

Orlando M. Durán; Vicente González-Prida; Adolfo Crespo; Antonio Guillén. 2019. "Priorización de Activos Físicos centrado en el Rendimiento Global (Throughput) en una Planta de Chancado." Información tecnológica 30, no. 2: 45-56.

Conference paper
Published: 01 January 2019 in Proceedings of the 29th European Safety and Reliability Conference (ESREL)
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ACS Style

González-Prida V; Zamora J; Guillén A; De La Fuente A; Viveros P.; Martínez-Galán P; Candán E; Moreu P. Understanding the new Context of Uncertainty and Risk under the 4th Industry Revolution. Proceedings of the 29th European Safety and Reliability Conference (ESREL) 2019, 1 .

AMA Style

González-Prida V, Zamora J, Guillén A, De La Fuente A, Viveros P., Martínez-Galán P, Candán E, Moreu P. Understanding the new Context of Uncertainty and Risk under the 4th Industry Revolution. Proceedings of the 29th European Safety and Reliability Conference (ESREL). 2019; ():1.

Chicago/Turabian Style

González-Prida V; Zamora J; Guillén A; De La Fuente A; Viveros P.; Martínez-Galán P; Candán E; Moreu P. 2019. "Understanding the new Context of Uncertainty and Risk under the 4th Industry Revolution." Proceedings of the 29th European Safety and Reliability Conference (ESREL) , no. : 1.

Conference paper
Published: 12 November 2018 in Proceedings of the 2nd Annual International Conference on Material, Machines and Methods for Sustainable Development (MMMS2020)
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GAMM (Graphical Analysis for Maintenance Management) is a method that supports decision-making in maintenance management through the visualization and graphical analysis of reliability data. One of the most important features of GAMM is that fosters the combination of reliability assessment with the current asset performance analysis. As a basis for reliability analysis, the GAMM method uses a nonparametric estimator of the reliability function using historical data, sometimes in very limited amounts. For successful results, experience and knowledge in maintenance management are strictly necessary. At the same time, experience shows that the method may become really amicable for managers due to clear visualization and by using a set of basic rules. The analysis can be made per category of assets, per asset, per maintenance skill or per failure mode. In this paper we present certain rules to be applied when using GAMM with the intention to show the capabilities of the method and the possibilities that offers for practical maintenance and asset performance analysis.

ACS Style

Adolfo Crespo Márquez; Luis Barbera Mártinez; K. A. H. Kobbacy; Antonio Sola Rosique; Antonio Guillén López; Antonio De La Fuente; Asier Erguido. Combining Reliability Assessment with Maintenance Performance Analysis Using GAMM. Proceedings of the 2nd Annual International Conference on Material, Machines and Methods for Sustainable Development (MMMS2020) 2018, 107 -117.

AMA Style

Adolfo Crespo Márquez, Luis Barbera Mártinez, K. A. H. Kobbacy, Antonio Sola Rosique, Antonio Guillén López, Antonio De La Fuente, Asier Erguido. Combining Reliability Assessment with Maintenance Performance Analysis Using GAMM. Proceedings of the 2nd Annual International Conference on Material, Machines and Methods for Sustainable Development (MMMS2020). 2018; ():107-117.

Chicago/Turabian Style

Adolfo Crespo Márquez; Luis Barbera Mártinez; K. A. H. Kobbacy; Antonio Sola Rosique; Antonio Guillén López; Antonio De La Fuente; Asier Erguido. 2018. "Combining Reliability Assessment with Maintenance Performance Analysis Using GAMM." Proceedings of the 2nd Annual International Conference on Material, Machines and Methods for Sustainable Development (MMMS2020) , no. : 107-117.

Journal article
Published: 06 September 2018 in IFAC-PapersOnLine
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This paper deals with the process of criticality analysis in overhead power lines, as a tool to improve maintenance, felling & pruning programs. Felling & pruning activities are tasks that utility companies must accomplish to respect the servitudes of the overhead lines, concerned with distances to vegetation, buildings, infrastructures and other networks crossings. Conceptually, these power lines servitudes can be considered as failure modes of the maintainable items under our analysis (power line spans), and the criticality analysis methodology developed, will therefore help to optimize actions to avoid these as other failure modes of the line maintainable items. The approach is interesting, but another relevant contribution of the paper is the process followed for the automation of the analysis. Automation is possible by utilizing existing companies IT systems and databases. The paper explains how to use data located in Enterprise Assets Management Systems, GIS and Dispatching systems for a fast, reliable, objective and dynamic criticality analysis. Promising results are included and also discussions about how this technique may result in important implications for this type of businesses.

ACS Style

A. Crespo; A. Sola; P. Moreu; J.F. Gómez; Antonio De La Fuente; A. Guillén; V. González-Prida. Criticality Analysis for improving maintenance, felling and pruning cycles in power lines. IFAC-PapersOnLine 2018, 51, 211 -216.

AMA Style

A. Crespo, A. Sola, P. Moreu, J.F. Gómez, Antonio De La Fuente, A. Guillén, V. González-Prida. Criticality Analysis for improving maintenance, felling and pruning cycles in power lines. IFAC-PapersOnLine. 2018; 51 (11):211-216.

Chicago/Turabian Style

A. Crespo; A. Sola; P. Moreu; J.F. Gómez; Antonio De La Fuente; A. Guillén; V. González-Prida. 2018. "Criticality Analysis for improving maintenance, felling and pruning cycles in power lines." IFAC-PapersOnLine 51, no. 11: 211-216.

Journal article
Published: 06 September 2018 in IFAC-PapersOnLine
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The aim of this paper is to remark the importance of new and advanced techniques supporting decision making in different business processes for maintenance and assets management, as well as the basic need of adopting a certain management framework with a clear processes map and the corresponding IT supporting systems. Framework processes and systems will be the key fundamental enablers for success and for continuous improvement. The suggested framework will help to define and improve business policies and work procedures for the assets operation and maintenance along their life cycle. The following sections present some achievements on this focus, proposing finally possible future lines for a research agenda within this field of assets management.

ACS Style

Antonio De-La-Fuente-Carmona; V. González-Prida; A. Crespo; J.F. Gómez; A. Guillén. Advanced Techniques for Assets Maintenance Management. IFAC-PapersOnLine 2018, 51, 205 -210.

AMA Style

Antonio De-La-Fuente-Carmona, V. González-Prida, A. Crespo, J.F. Gómez, A. Guillén. Advanced Techniques for Assets Maintenance Management. IFAC-PapersOnLine. 2018; 51 (11):205-210.

Chicago/Turabian Style

Antonio De-La-Fuente-Carmona; V. González-Prida; A. Crespo; J.F. Gómez; A. Guillén. 2018. "Advanced Techniques for Assets Maintenance Management." IFAC-PapersOnLine 51, no. 11: 205-210.

Website
Published: 15 June 2018 in Safety and Reliability – Safe Societies in a Changing World
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This contribution is intended to observe special features presented in physical assets for defence. Particularly, the management of defence assets has to consider not only the reliability, availability, maintainability and other factors frequently used in asset management. On the contrary, such systems should also take into account their adaptation to changing operating environments as well as their capability to changes on the technological context. This study approaches to the current real situation where, due to the diversity of conflicts in our international context, the same type of defence systems must be able to provide services under different boundary conditions in different areas of the globe. At the same time, new concepts from the Industry 4.0 provide quick changes that should be considered along the life cycle of a defence asset. As a finding or consequence, these variations in operating conditions and in technology may accelerate asset degradation by modifying its reliability, its up-to-date status and, in general terms, its end-of-life estimation, depending of course on a diversity of factors. This accelerated deterioration of the asset is often known as “obsolescence” and its implications are often evaluated (when possible), in terms of costs from different natures. The originality of this contribution is the introduction of a discussion on how a proper analysis may help to reduce errors and mistakes in the decision-making process regarding the suitability or not of repairing, replacing, or modernizing the asset or system under study. In other words, the obsolescence analysis, from a reliability and technological point of view, could be used to determine the conservation or not of a specific asset fleet, in order to understand the effects of operational and technology factors variation over the functionality and life cycle cost of physical assets for defence.

ACS Style

V. Gonzalez-Prida; J. Zamora; Adolfo Crespo Márquez; L. Villar-Fidalgo; A. De La Fuente; P. Martínez-Galán; A. Guillén. An overview on the obsolescence of physical assets for the defence facing the challenges of industry 4.0 and the new operating environments. Safety and Reliability – Safe Societies in a Changing World 2018, 2959 -2963.

AMA Style

V. Gonzalez-Prida, J. Zamora, Adolfo Crespo Márquez, L. Villar-Fidalgo, A. De La Fuente, P. Martínez-Galán, A. Guillén. An overview on the obsolescence of physical assets for the defence facing the challenges of industry 4.0 and the new operating environments. Safety and Reliability – Safe Societies in a Changing World. 2018; ():2959-2963.

Chicago/Turabian Style

V. Gonzalez-Prida; J. Zamora; Adolfo Crespo Márquez; L. Villar-Fidalgo; A. De La Fuente; P. Martínez-Galán; A. Guillén. 2018. "An overview on the obsolescence of physical assets for the defence facing the challenges of industry 4.0 and the new operating environments." Safety and Reliability – Safe Societies in a Changing World , no. : 2959-2963.

Website
Published: 15 June 2018 in Safety and Reliability – Safe Societies in a Changing World
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An Asset Health Index (AHI) is a tool that processes data about asset’s condition. That index is intended to explore if alterations can be generated in the health of the asset along its life cycle. These data can be obtained during the asset’s operation, but they can also come from other information sources such as geographical information systems, supplier’s reliability records, relevant external agent’s records, etc. The tool (AHI) provides an objective point of view in order to justify, for instance, the extension of an asset useful life, or in order to identify which assets from a fleet are candidates for an early replacement as a consequence of a premature aging. This paper develops a model applicable to different classes of equipment and industrial sectors. A review of the main cases where the asset health index has been applied is included. Likewise, advantages and disadvantages in the application of this kind of tools are revealed, providing a guide for a research line related to the general application of this tool.

ACS Style

A. De La Fuente; A. Guillén; A. Crespo; A. Sola; J. Gómez; P. Moreu; V. Gonzalez-Prida. Strategic view of an assets health index for making long-term decisions in different industries. Safety and Reliability – Safe Societies in a Changing World 2018, 1151 -1156.

AMA Style

A. De La Fuente, A. Guillén, A. Crespo, A. Sola, J. Gómez, P. Moreu, V. Gonzalez-Prida. Strategic view of an assets health index for making long-term decisions in different industries. Safety and Reliability – Safe Societies in a Changing World. 2018; ():1151-1156.

Chicago/Turabian Style

A. De La Fuente; A. Guillén; A. Crespo; A. Sola; J. Gómez; P. Moreu; V. Gonzalez-Prida. 2018. "Strategic view of an assets health index for making long-term decisions in different industries." Safety and Reliability – Safe Societies in a Changing World , no. : 1151-1156.

Website
Published: 15 June 2018 in Safety and Reliability – Safe Societies in a Changing World
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The transformation of the industry due to recent technologies introduction is an evolving process whose engines are competitiveness and sustainability, understood in its broadest sense (environmental, economic and social). This process is facing, due to the current state of scientific and technological development, a new challenge yet even more important: the transition from discrete technological solutions that respond to isolated problems, to a global conception where the assets, plant, processes and engineering systems are conceived, designed and operated as an integrated complex unit. This vision is evolving besides a set of concepts that are, in some way, to guide this development: Smart Factories, Cyber-Physical Systems, Factory of the Future or Industry 4.0, are examples. The full integration of the operation and maintenance (O&M) processes in the production systems is a key topic within this new paradigm. Not only that, this evolution necessarily results in the emergence of new processes and needs of O&M, i.e. also, the O&M will undergo a profound transformation. The transition from actual isolated production assets to such Industry 4.0 with CPS is far from easy. This document presents a proposal to develop such transition adapting one iteration of the Model of Maintenance Management (MMM) integrated into ISO 55000 to the complexity of incorporating “System of Systems” CPSs maintenance. It involves several stages: identification, prioritization, risk management, planning, scheduling, execution, control, and improvement supported by system engineering techniques and agile/concurrent project management.

ACS Style

L. Villar-Fidalgo; Adolfo Crespo Márquez; V. González Prida; A. De La Fuente; P. Martínez-Galán; A. Guillén. Cyber physical systems implementation for asset management improvement: A framework for the transition. Safety and Reliability – Safe Societies in a Changing World 2018, 3063 -3069.

AMA Style

L. Villar-Fidalgo, Adolfo Crespo Márquez, V. González Prida, A. De La Fuente, P. Martínez-Galán, A. Guillén. Cyber physical systems implementation for asset management improvement: A framework for the transition. Safety and Reliability – Safe Societies in a Changing World. 2018; ():3063-3069.

Chicago/Turabian Style

L. Villar-Fidalgo; Adolfo Crespo Márquez; V. González Prida; A. De La Fuente; P. Martínez-Galán; A. Guillén. 2018. "Cyber physical systems implementation for asset management improvement: A framework for the transition." Safety and Reliability – Safe Societies in a Changing World , no. : 3063-3069.

Chapter
Published: 13 July 2017 in Advanced Maintenance Modelling for Asset Management
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CBM (Condition-Based Maintenance) solutions are increasingly present in industrial systems due to two main circumstances: rapid evolution, without precedents, in the capture and analysis of data and significant cost reduction of supporting technologies. CBM programs in industrial systems can become extremely complex, especially when considering the effective introduction of new capabilities provided by PHM (Prognostics and Health Management) and E-maintenance disciplines. In this scenario, any CBM solution involves the management of numerous technical aspects, that the maintenance manager needs to understand, in order to be implemented properly and effectively, according to the company’s strategy. This paper provides a comprehensive representation of the key components of a generic CBM solution, this is presented using a framework or supporting structure for an effective management of the CBM programs. The concept “symptom of failure”, its corresponding analysis techniques (introduced by ISO 13379-1 and linked with RCM/FMEA analysis), and other international standard for CBM open-software application development (for instance, ISO 13374 and OSA-CBM), are used in the paper for the development of the framework. An original template has been developed, adopting the formal structure of RCM analysis templates, to integrate the information of the PHM techniques used to capture the failure mode behaviour and to manage maintenance. Finally, a case study describes the framework using the referred template.

ACS Style

Antonio Jesús Guillén López; Juan Francisco Gómez Fernández; Adolfo Crespo Márquez. A Framework for Effective Management of CBM Programs. Advanced Maintenance Modelling for Asset Management 2017, 107 -141.

AMA Style

Antonio Jesús Guillén López, Juan Francisco Gómez Fernández, Adolfo Crespo Márquez. A Framework for Effective Management of CBM Programs. Advanced Maintenance Modelling for Asset Management. 2017; ():107-141.

Chicago/Turabian Style

Antonio Jesús Guillén López; Juan Francisco Gómez Fernández; Adolfo Crespo Márquez. 2017. "A Framework for Effective Management of CBM Programs." Advanced Maintenance Modelling for Asset Management , no. : 107-141.

Chapter
Published: 13 July 2017 in Advanced Maintenance Modelling for Asset Management
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The publication of the ISO 55000 family of standards on asset management is surely a very important event for many economic activity sectors, especially for those that are very intensive in capital investments devoted to physical assets. Although the standards set a framework for the requirements to fulfill in order to manage assets properly, companies, and organizations in general, need to know how to reach those requirements. What are the necessary steps to follow and the supporting structure that needs to be built in order to develop a proper, consistent and competitive assets management process and system? This chapter links ISO 55000 requirements to the assets management framework promoted by the authors, and at the same time, links the models presented in the different chapters of the book, with specific elements of the standards.

ACS Style

Adolfo Crespo Márquez; Antonio Jesús Guillén López; Antonio Sola Rosique; Carlos Parra Márquez. On the Family of Standards UNE-ISO 55000 and How to Effectively Manage Assets. Advanced Maintenance Modelling for Asset Management 2017, 1 -16.

AMA Style

Adolfo Crespo Márquez, Antonio Jesús Guillén López, Antonio Sola Rosique, Carlos Parra Márquez. On the Family of Standards UNE-ISO 55000 and How to Effectively Manage Assets. Advanced Maintenance Modelling for Asset Management. 2017; ():1-16.

Chicago/Turabian Style

Adolfo Crespo Márquez; Antonio Jesús Guillén López; Antonio Sola Rosique; Carlos Parra Márquez. 2017. "On the Family of Standards UNE-ISO 55000 and How to Effectively Manage Assets." Advanced Maintenance Modelling for Asset Management , no. : 1-16.

Chapter
Published: 13 July 2017 in Advanced Maintenance Modelling for Asset Management
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The advanced use of the Information and Communication Technologies is evolving the way that systems are managed and maintained. A great number of techniques and methods have emerged in the light of these advances allowing to have an accurate and knowledge about the systems’ condition evolution and remaining useful life. The advances are recognized as outcomes of an innovative discipline, nowadays discussed under the term of Prognostics and Health Management (PHM). In order to analyze how maintenance will change by using PHM, a conceptual model is proposed built upon three views. The model highlights: (i) how PHM may impact the definition of maintenance policies; (ii) how PHM fits within the Condition-Based Maintenance (CBM) and (iii) how PHM can be integrated into Reliability Centered Maintenance (RCM) programs. The conceptual model is the research finding of this review note and helps to discuss the role of PHM in advanced maintenance systems.

ACS Style

Antonio Jesús Guillén López; Adolfo Crespo Márquez; Marco Macchi; Juan Francisco Gómez Fernández. Prognostics and Health Management in Advanced Maintenance Systems. Advanced Maintenance Modelling for Asset Management 2017, 79 -106.

AMA Style

Antonio Jesús Guillén López, Adolfo Crespo Márquez, Marco Macchi, Juan Francisco Gómez Fernández. Prognostics and Health Management in Advanced Maintenance Systems. Advanced Maintenance Modelling for Asset Management. 2017; ():79-106.

Chicago/Turabian Style

Antonio Jesús Guillén López; Adolfo Crespo Márquez; Marco Macchi; Juan Francisco Gómez Fernández. 2017. "Prognostics and Health Management in Advanced Maintenance Systems." Advanced Maintenance Modelling for Asset Management , no. : 79-106.

Chapter
Published: 01 January 2017 in Advances in Logistics, Operations, and Management Science
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Buildings lifecycle management is an area of great interest. Due this, the R&D is being promoting worldwide looking for new effective maintenance tools and methodologies. In this scenario there are two development lines whose convergence can bring great advances in this area: Asset Management (AM) and Building Information Modeling (BIM). BIM models are transforming the way buildings are conceived, designed, constructed and managed. But current use of BIM concentrates on preplanning, design, construction and integrated project delivery of buildings and facilities, rather than maintenance and building operation management. Asset Management tools, including Facilities Management (FM), and application frameworks provide the approach and required elements to get more efficiency and efficacy in the building lifecycle management. This chapter introduces the application of AM for building and how the development of BIM models is the key element to allow its effective implementation.

ACS Style

Antonio Jesús Guillén López; Adolfo Crespo Marquez; Jose A. Sanz; Khairy A. H. Kobbacy; Samir M. Shariff; Etienne Le Page; Vicente González-Prida. Asset Management for Buildings within the Framework of Building Information Modeling Development. Advances in Logistics, Operations, and Management Science 2017, 121 -138.

AMA Style

Antonio Jesús Guillén López, Adolfo Crespo Marquez, Jose A. Sanz, Khairy A. H. Kobbacy, Samir M. Shariff, Etienne Le Page, Vicente González-Prida. Asset Management for Buildings within the Framework of Building Information Modeling Development. Advances in Logistics, Operations, and Management Science. 2017; ():121-138.

Chicago/Turabian Style

Antonio Jesús Guillén López; Adolfo Crespo Marquez; Jose A. Sanz; Khairy A. H. Kobbacy; Samir M. Shariff; Etienne Le Page; Vicente González-Prida. 2017. "Asset Management for Buildings within the Framework of Building Information Modeling Development." Advances in Logistics, Operations, and Management Science , no. : 121-138.

Journal article
Published: 01 October 2016 in Computers in Industry
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This paper presents a framework and a template to clarify the concepts and structure behind a given condition-based maintenance solution.This paper discusses about the necessity of CBM management approaches in complex contest like E-Maintenance strategies.The template will complement the RCM tables, and that will practically compile the information of the current CBM solutions.Any future change, improvement, of CBM program will be very much facilitated using the template provided.In addition, the framework and template is exemplified for an electrical power transformer CBM use case. CBM (Condition Based Maintenance) solutions are increasingly present in industrial systems due to two main circumstances: rapid evolution, without precedents, in the capture and analysis of data and significant cost reduction of supporting technologies. CBM programs in industrial systems can become extremely complex, especially when considering the effective introduction of new capabilities provided by PHM (Prognostics and Health Management) and E-maintenance disciplines. In this scenario, any CBM solution involves the management of numerous technical aspects, that the maintenance manager needs to understand, in order to be implemented properly and effectively, according to the company's strategy. This paper provides a comprehensive representation of the key components of a generic CBM solution, this is presented using a framework or supporting structure for an effective management of the CBM programs. The concept \"symptom of failure\", its corresponding analysis techniques (introduced by ISO 13379-1 and linked with RCM/FMEA analysis), and other international standard for CBM open-software application development (for instance, ISO 13374 and OSA-CBM), are used in the paper for the development of the framework. An original template has been developed, adopting the formal structure of RCM analysis templates, to integrate the information of the PHM techniques used to capture the failure mode behaviour and to manage maintenance. Finally, a case study describes the framework using the referred template.

ACS Style

Antonio J. Guillén; Adolfo Crespo; Juan Fco. Gómez; Maria Dolores Sanz. A framework for effective management of condition based maintenance programs in the context of industrial development of E-Maintenance strategies. Computers in Industry 2016, 82, 170 -185.

AMA Style

Antonio J. Guillén, Adolfo Crespo, Juan Fco. Gómez, Maria Dolores Sanz. A framework for effective management of condition based maintenance programs in the context of industrial development of E-Maintenance strategies. Computers in Industry. 2016; 82 ():170-185.

Chicago/Turabian Style

Antonio J. Guillén; Adolfo Crespo; Juan Fco. Gómez; Maria Dolores Sanz. 2016. "A framework for effective management of condition based maintenance programs in the context of industrial development of E-Maintenance strategies." Computers in Industry 82, no. : 170-185.

Original articles
Published: 29 April 2016 in Production Planning & Control
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The advanced use of the Information and Communication Technologies is evolving the way that systems are managed and maintained. A great number of techniques and methods have emerged in the light of these advances allowing to have an accurate and knowledge about the systems’ condition evolution and remaining useful life. The advances are recognised as outcomes of an innovative discipline, nowadays discussed under the term of Prognostics and Health Management (PHM). In order to analyse how maintenance will change using PHM, a conceptual model is proposed built upon three views. The model highlights: (i) how PHM may impact the definition of maintenance policies; (ii) how PHM fits within the condition-based maintenance; and (iii) how PHM can be integrated into reliability-centred maintenance programmes. The conceptual model is the research finding of this review note and helps to discuss the role of PHM in advanced maintenance systems.

ACS Style

Antonio J. Guillén; Adolfo Crespo; Marco Macchi; Juan Gómez. On the role of Prognostics and Health Management in advanced maintenance systems. Production Planning & Control 2016, 27, 991 -1004.

AMA Style

Antonio J. Guillén, Adolfo Crespo, Marco Macchi, Juan Gómez. On the role of Prognostics and Health Management in advanced maintenance systems. Production Planning & Control. 2016; 27 (12):991-1004.

Chicago/Turabian Style

Antonio J. Guillén; Adolfo Crespo; Marco Macchi; Juan Gómez. 2016. "On the role of Prognostics and Health Management in advanced maintenance systems." Production Planning & Control 27, no. 12: 991-1004.

Conference paper
Published: 26 March 2016 in Proceedings of the 2nd Annual International Conference on Material, Machines and Methods for Sustainable Development (MMMS2020)
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The main objective of this paper is to analyse the availability of different possible configurations for an industrial facility which provides loading and unloading services of LNG (Liquid Natural Gas) at the quay of a plant. Specific service availability is calculated with the support of OREDA database and applying random values for failure rates, which have been obtained from the mean failure rate and standard deviation provided by the mentioned database. As an additional objective, this paper shows a sensitivity analysis for service availability modifying the reliability of involved elements, which helps for example to review the physical stock structure or to readapt maintenance policies in the plant.

ACS Style

V. González-Prida; L. Barberá; A. Crespo; A. Guillén. Availability Simulation Based on Pseudo-random Failure Rates: A Case Study on Industrial Process. Proceedings of the 2nd Annual International Conference on Material, Machines and Methods for Sustainable Development (MMMS2020) 2016, 197 -205.

AMA Style

V. González-Prida, L. Barberá, A. Crespo, A. Guillén. Availability Simulation Based on Pseudo-random Failure Rates: A Case Study on Industrial Process. Proceedings of the 2nd Annual International Conference on Material, Machines and Methods for Sustainable Development (MMMS2020). 2016; ():197-205.

Chicago/Turabian Style

V. González-Prida; L. Barberá; A. Crespo; A. Guillén. 2016. "Availability Simulation Based on Pseudo-random Failure Rates: A Case Study on Industrial Process." Proceedings of the 2nd Annual International Conference on Material, Machines and Methods for Sustainable Development (MMMS2020) , no. : 197-205.

Conference paper
Published: 26 March 2016 in Proceedings of the 2nd Annual International Conference on Material, Machines and Methods for Sustainable Development (MMMS2020)
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PHM (Prognostics and Health Management) is key factor for reaching more proactive maintenance models. Its applicability depends, among others, on the development of general methodological approaches to guide the design process of new maintenance strategies where the potential of PHM can be exploited. Despite there are few specific standards that treat PHM is possible to use current standards of maintenance and diagnostic as the bases of the development of this general methodologies. This paper offers a revision of some of the available standards that can serve as guidelines to develop such solutions including a proposal of methodology to design and implement PHM solutions that combines current standards.

ACS Style

Antonio J. Guillén; Vicente González-Prida; Juan Fco Gómez; Adolfo Crespo. Standards as Reference to Build a PHM-Based Solution. Proceedings of the 2nd Annual International Conference on Material, Machines and Methods for Sustainable Development (MMMS2020) 2016, 207 -214.

AMA Style

Antonio J. Guillén, Vicente González-Prida, Juan Fco Gómez, Adolfo Crespo. Standards as Reference to Build a PHM-Based Solution. Proceedings of the 2nd Annual International Conference on Material, Machines and Methods for Sustainable Development (MMMS2020). 2016; ():207-214.

Chicago/Turabian Style

Antonio J. Guillén; Vicente González-Prida; Juan Fco Gómez; Adolfo Crespo. 2016. "Standards as Reference to Build a PHM-Based Solution." Proceedings of the 2nd Annual International Conference on Material, Machines and Methods for Sustainable Development (MMMS2020) , no. : 207-214.