Relevant bibliographies by topics / Product Lifecycle Management (PLM)

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  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Product Lifecycle Management (PLM)'

Author: Grafiati
Published: 4 June 2021
Last updated: 14 March 2023

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Journal articles on the topic "Product Lifecycle Management (PLM)"

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Thilmany, Jean. "Lifecycle Management." Mechanical Engineering 135, no. 03 (March 1, 2013): 38–41. http://dx.doi.org/10.1115/1.2013-mar-2.

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This article discusses the application of product life-cycle management (PLM) concepts in all types of manufacturing industries. PLM can handle product complexity whether a company designs a few items with many parts or a number of products that need to be localized to many communities around the globe. Fashion-driven industries are using PLM systems in new, idiosyncratic ways, and that means that they cannot simply purchase and implement an existing system the way an engineering company can. In fashion, PLM is used to keep abreast of trends and consolidate designs and inspirations. A study shows that the retail and apparel industries aren’t nearly as focused on product development as engineering companies are. For engineers, PLM is a way to centralize and to focus on product development and innovation. In retail and apparel, PLM is used to manage the supply chain more than product development.
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Rangan, Ravi M., Steve M. Rohde, Russell Peak, Bipin Chadha, and Plamen Bliznakov. "Streamlining Product Lifecycle Processes: A Survey of Product Lifecycle Management Implementations, Directions, and Challenges." Journal of Computing and Information Science in Engineering 5, no. 3 (September 1, 2005): 227–37. http://dx.doi.org/10.1115/1.2031270.

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The past three decades have seen phenomenal growth in investments in the area of product lifecycle management (PLM) as companies exploit opportunities in streamlining product lifecycle processes, and fully harnessing their data assets. These processes span all product lifecycle phases from requirements definition, systems design/ analysis, and simulation, detailed design, manufacturing planning, production planning, quality management, customer support, in-service management, and end-of-life recycling. Initiatives ranging from process re-engineering, enterprise-level change management, standardization, globalization and the like have moved PLM processes to mission-critical enterprise systems. Product data representations that encapsulate semantics to support product data exchange and PLM collaboration processes have driven several standards organizations, vendor product development efforts, real-world PLM implementations, and research initiatives. However, the process and deployment dimensions have attracted little attention: The need to optimize organization processes rather than individual benefits poses challenging “culture change management” issues and have derailed many enterprise-scale PLM efforts. Drawn from the authors’ field experiences as PLM system integrators, business process consultants, corporate executives, vendors, and academicians, this paper explores the broad scope of PLM, with an added focus on the implementation and deployment of PLM beyond the development of technology. We review the historical evolution of engineering information management/PLM systems and processes, characterize PLM implementations and solution contexts, and discuss case studies from multiple industries. We conclude with a discussion of research issues motivated by improving PLM adoption in industry.
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Zina, Souheïl, Muriel Lombard, Luc Lossent, and Charles Henriot. "Generic Modeling and Configuration Management in Product Lifecycle Management." International Journal of Computers Communications & Control 1, no. 4 (October 1, 2006): 126. http://dx.doi.org/10.15837/ijccc.2006.4.2314.

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The PLM (Product Lifecycle Management) is often defined as a set of functions and procedures which allows one to manage and to exploit the data defining at the same time the products and the processes implemented for their developments. However, the installation of a PLM solution remains a difficult exercise taking into account the complexity and the diversity of the customer requirements as well as the transverse utilization of this solution in all the company’s’ functions. The issues faced by both editors and integrators of PLM applications arise from the specific aspect of customers’ projects, even tough most functional needs are often generic. In this paper we are focused on product modeling in PLM applications, more particularly on configuration management that traces product evolutions throughout its lifecycle. we will insist on the links between the configuration needs and the multi-view approach models and we release problems related to PLM applications deployment. Our work concerns the PLM generic solutions based on the concept of generic models. This generic model takes into account the configurations specification associated to the managed product and can be extended to cover specific needs.
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ÜÇOK, Bilge, and Rüstem Barış YEŞİLAY. "Circular Economy From Product Lifecycle Management Perspective." Journal of Yaşar University 17, no. 67 (July 31, 2022): 688–717. http://dx.doi.org/10.19168/jyasar.1006411.

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Ürün Yaşam Döngüsü Yönetimi (PLM), şirketlerin küresel pazarda rekabet edebilmeleri için bir ihtiyaç haline gelmiştir. PLM, en iyi kalitede üretim için en az zaman ve maliyetle işbirliği içinde çalışmanın bir gereğidir. Döngüsel ekonomi kullanımdan sonraki imha sürecinin yerine dönüşümü ve yeniden dönüşümü ifade eden bir anlayıştır. Döngüsel ekonomi kavramı hem sürdürülebilirlik hem de kârlılığını artırmak isteyen şirketler için giderek daha popüler hale gelmektedir. PLM sistemleri, döngüsel bir modele geçmek isteyen şirketler için önemli ölçüde yardım sağlayabilir. Bir PLM sistemi, bir ürünün yaşam döngüsünü döngüsel bir şekilde yönetmek için en iyi çözüm olabilir. Geniş bir işletme konsepti olarak PLM, ürün ve bilgi akışları gibi yaşam döngüsü aşamalarında ürün hakkında bilgi sağlayabilir. PLM bugün şirketlerin Yaşam Döngüsü süreçlerini kolaylaştırmak için kullanılmaktadır. PLM’nin bu süreçler döngüsel olanlara dönüştüğünde kullanılacak kritik bir araç olabileceği iddia edilebilir. Örneğin, bu, şirketlerin imalat sürecinin daha erken bir aşamasında daha iyi kararlar almalarına yardımcı olmak için hangi malzemelerin tekrar kullanılabilir olduğu hakkında genel bir bakış içerebilir. Bu çalışma kapsamında PLM ve döngüsel ekonomi hakkında literatür çalışmaları yapılıp, mevcut uygulamalar incelenip son aşamada şirket çalışanlarına yönelik olarak PLM ve döngüsel ekonomi konuları hakkında anket çalışması yapılmıştır. Anket sonuçları yorumlanıp öneriler belirtilmiştir.
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Deuter, Andreas, and Sebastian Imort. "Product Lifecycle Management with the Asset Administration Shell." Computers 10, no. 7 (June 23, 2021): 84. http://dx.doi.org/10.3390/computers10070084.

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Product lifecycle management (PLM) as a holistic process encompasses the idea generation for a product, its conception, and its production, as well as its operating phase. Numerous tools and data models are used throughout this process. In recent years, industry and academia have developed integration concepts to realize efficient PLM across all domains and phases. However, the solutions available in practice need specific interfaces and tend to be vendor dependent. The Asset Administration Shell (AAS) aims to be a standardized digital representation of an asset (e.g., a product). In accordance with its objective, it has the potential to integrate all data generated during the PLM process into one data model and to provide a universally valid interface for all PLM phases. However, to date, there is no holistic concept that demonstrates this potential. The goal of this research work is to develop and validate such an AAS-based concept. This article demonstrates the application of the AAS in an order-controlled production process, including the semi-automatic generation of PLM-related AAS data. Furthermore, it discusses the potential of the AAS as a standard interface providing a smooth data integration throughout the PLM process.
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Deschner, Christian. "Enhanced model-based engineering for centrally managed configuration management in product lifecycle management." SHS Web of Conferences 77 (2020): 03002. http://dx.doi.org/10.1051/shsconf/20207703002.

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In times products gain in complexity and variety whereby release and development cycles become even shorter, consistent and systematic variant management is essential not only for technical communication but also for the very most processes in PLM. Therefore, system engineering and system configuration themselves must be leading for a centrally managed, reliable variant management for all PLM processes. We depict how enhanced model-based system engineering approach based on product and product component models can be the enabler for variant management in all PLM processes by specific, explicitly deduced views in different stages of the entire Product Lifecycle.
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Gries, Thomas, Kai Müller, Philipp Hartmann, and Inga Gehrke. "Closed Loop Product Lifecycle Management in der Textilbranche." Technische Textilien 65, no. 1 (2022): 30–33. http://dx.doi.org/10.51202/0323-3243-2022-1-030.

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Für die Perspektive der Textiltechnik stellt das Closed-Loop Product Lifecycle Management einen spannenden Ansatz dar, um durch neuartige Technologien in der Datenerfassung und -verwertung sowie der durchgängigen Informationssteuerung die Herausforderungen einer stärkeren Kundenorientierung und einer höheren Nachhaltigkeit in der gesamten Wertschöpfungskette zu bewältigen. Dabei schafft das PLM in Unternehmensnetzwerken eine Plattform für die Effizienz- und Qualitätssteigerung in der Produktion sowie der Entwicklung von Dienstleistungen und Produkten, in die die Erfahrungen aus vorherigen Produktlebenszyklen unmittelbar einfließen. Durch die besonderen Anforderungen der Textilbranche hinsichtlich einer breiten Produktvariation, einer aufwendigen Nachverfolgung einzelner Produkte und der hochfragmentierten Produktionsprozesse adaptieren Textilunternehmen entsprechende Lösungen erst langsam. Jedoch erkennen immer mehr Organisationen die Vorteile einer individuellen PLM-Lösung. Forschungsinstitute wie das ITA unterstützen durch vielfältige Forschungsvorhaben diese Entwicklung, um gemeinsam mit den Partnern aus der Industrie die Flexibilität und Transparenz durch PLM für eine stärkere Wettbewerbsfähigkeit der Textiltechnik der Zukunft nutzbar zu machen [9, 10, 13].
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Yoga Mule, Jaykumar, and Amol D. Lokhande. "Review of Product Lifecycle Management Tools Used in Manufacturing Industry." 1 1, no. 1 (March 1, 2022): 17–20. http://dx.doi.org/10.46632/ese/1/1/5.

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Nowadays, the growing complex business environment and complexity of the roduct,large number of product typescompanies are beginning to focus more and more on the three individual productivity application, productivity and IT productivity these three factors must be balanced and optimized at moderate cost.This is particularly challenging for small medium and large size companies. This study provides an overview of the most important PLM technology concepts and demonstrates concepts by explaining the design and implementation of industry-developed PLM tools and dynamic PLM service is the solution to that demand manufacturing companies. The purpose of this study is to improve the industrial production process through the PLM tools
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Zhang, Yu, and Hua Cai. "Research and Implementation of Product Lifecycle Management Platform Based on Teamcenter." Advanced Materials Research 538-541 (June 2012): 2961–66. http://dx.doi.org/10.4028/www.scientific.net/amr.538-541.2961.

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Product lifecycle management (PLM) is a kind of solution, software technology and a business strategy, which play an indispensable role in the enterprise informatization and network management. In this paper, Teamcenter management software of SIEMENS is applied as basic platform of implementing PLM project, the fundamental network structure and main functions and solutions are introduced, furthermore, it also mainly researches the implementation strategies and process of PLM project and analyses the application values and advantages of PLM project for the enterprises.
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Corallo, Angelo, Maria Elena Latino, Mariangela Lazoi, Serena Lettera, Manuela Marra, and Sabrina Verardi. "Defining Product Lifecycle Management: A Journey across Features, Definitions, and Concepts." ISRN Industrial Engineering 2013 (August 27, 2013): 1–10. http://dx.doi.org/10.1155/2013/170812.

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Product lifecycle management (PLM) has become more important in companies providing technologies and methodologies to manage data, information, and knowledge along the whole product lifecycle. In recent years, several authors have argued about PLM using a managerial or a technological view. The paper analyses these studies and integrates different author's points of view using focus groups, blogs, and face-to-face meetings in a university community of practice. Three sets of features (i.e., managerial, technological, and collaborative ones) have been used to review the existing definitions shared between academic and industrial ones and to propose an extended PLM definition describing its key concepts. The paper is a useful reference for managers and academics who want to have a clear and critical understanding of PLM using a unique source to collect lines of evidence on several PLM definitions, features, and concepts.
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Dissertations / Theses on the topic "Product Lifecycle Management (PLM)"

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Eriksson, Martin, and Mikael Lindgren. "Kartläggning av tvärfunktionella verksamhetsbehov för framtida utveckling av OAS." Thesis, Uppsala universitet, Institutionen för informationsteknologi, 2012. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-171914.

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The management of information is one of the key aspects within a successful andefficient product development process, particularly regarding complex products.Scania CV AB is at the moment developing a new IT-system, OAS, which aims tomanage the company’s product data. With this as a background, the purpose of thismaster thesis is to identify the cross-functional user needs within Scania’s organizationconcerning product data and the management around it. To fulfill the purpose, an empirical study consisting of 40 personal interviews with 50representatives from different functions within Scania’s organization was carriedthrough. The empirical data was then analyzed focusing on identifying thecross-functional needs and issues. The study points out that there is a big potential regarding improvement among themanagement of product data. For example, a lot of time is spent by the users to findthe requested information and to copy data manually from one IT-system to another.The most important findings, in terms of cross-functional user needs within Scania’sorganization, are the integration of Scania’s many IT-system and to make informationmore accessible. Further needs are regarding the ability to follow a product’s entirelifecycle, better support for the user’s understanding of the complex product, anenhanced management of Engineering Change Orders and a better supportconcerning the product structure.
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Johnson, Jordan Lowell. "Integrating Synchronous Collaborative Applications with Product Lifecycle Management Workflows." BYU ScholarsArchive, 2015. https://scholarsarchive.byu.edu/etd/5501.

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Product Lifecycle Management (PLM) systems are used by thousands of engineering companies world wide. Improving these systems will have a drastic and global effect. One possible improvement is to integrate synchronous collaborative applications with PLM systems. These applications allow multiple people to work on a single digital object simultaneously. They have already been shown to reduce the time a task requires. Using these applications to complete a project will reduce the project time. However, simply including synchronous collaborative applications within a PLM system ignores powerful benefits that could provide further time-saving benefits. The integration must allow improved awareness at the project level, so that users can mediate their own actions.This thesis presents a method for such an integration. It also presents a prototype which implements that method. Testing was carried out using this prototype. As hypothesized, including synchronous collaborative applications shortened the overall project time. In addition, providing awareness information and allowing users to mediate themselves further shortened project times and reduced variation in those times. Proper integration should therefore provide awareness at the project level and allow users to mediate themselves to some extent.
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Izadpanah, Seyed Hamedreza. "Méthode d'évolution de modèles produits dans les sytèmes PLM." Thesis, Grenoble, 2011. http://www.theses.fr/2011GRENI077/document.

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Le système PLM est l’un des outils stratégiques de l’entreprise. Ces systèmes sont sujets à des changements récurrents dans l’entreprise. Les évolutions organisationnelles, le changement de l’offre produit ou encore le remplacement de logiciels PLM peuvent déclencher l’évolution du système d’information PLM. Une des structures les plus importantes dans les systèmes PLM est le modèle du produit, autour duquel s’articule les informations et processus. C’est autour du modèle produit que se concentrent nos recherches. Les causes d’évolution des modèles produits sont des éléments signifiants qui différencient les étapes de la démarche à suivre. Les méthodes d’IDM sont utilisées afin de formaliser la transformation des modèles. En plus, cette démarche bénéfice d’un cadre de similarité spécialement développé pour la configuration de produit. Un exemple industriel est illustré et résolu en appliquant cette démarche. Il s’agit de l’évolution d’un système gérant les modèles spécifiques de produit vers un système qui est capable de construire et d’utiliser les modèles génériques de produit. Un outil informatique support à nos travaux est développé dans le cadre d'Eclipse
PLM systems are among the strategic components of enterprise’s information system architecture. These systems undergo frequent evolutions of enterprise. Organizational evolution or product offer variation as well as PLM application replacement may launch PLM systems’ evolution.One of the important structures in PLM systems is the product configuration, which organize and structure all product’s information and processes. Our research activities concern product model evolution. Reasons of product model evolution specify the appropriate methodology and necessary steps in order to handle it. MDE methods are used to formalize the model transformation process.Moreover, our methodology contains a specific similarity framework dedicated to product configuration. An industrial example was illustrated and resolved by this methodology. The problematic of this example is the migration of a system which manage only specific product configuration to a new system that is capable to construct and use generic models of product
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Ye, Xin, and Xintong Zhang. "PLM for Multiple Lifecycle Product : Concepts, terminologies, processes for collaborative information management." Thesis, KTH, Industriell produktion, 2014. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-141017.

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Natural raw materials are consumed at a rapid rate due to the ever-growing population and the endless pursuance of higher living standard of human kind, which alerts the manufacturing industry that resource crisis would come soon if no proactive actions are taken. Rapid manufacturing and consuming of products also brings about the serious environmental problems, e.g. over mining leads to surface water and groundwater pollution, energy consumption emits huge greenhouse gases, countless solid wastes threats human’s health and the sustainable use of land. Manufacturing industry is faced with the dilemma of either to keep the economic growth to meet the increasing society demand by immolating the earth and eco-system, or to save the earth by sacrificing economic growth. However, besides those two alternatives, we could rethink about developing innovative sustainable manufacturing strategies to find the balance point of environmental, economic and social sustainability. In this thesis, Multiple Lifecycle Product (MLP) is put forward as a solution towards sustainable manufacturing. It aims to shift the current open loop manufacturing model i.e. “take-make-dispose” to a seamless closed loop manufacturing model, which enables a product to have multiple lifecycles for maximizing the utilization of raw material, minimizing the consumption of energy and recapture the utmost value-added i.e. inputs in terms of labor, plant, equipment, etc. Resource Conservative Manufacturing (ResCoM) is such a closed loop manufacturing system developedbased on MLP concept, which implements MLP through a series of meticulous and collaborative works of product design, business model, closed loop supply chain and remanufacturing. Numberless information will be generated from the collaborative work during the implementation of MLP, and in each lifecycle of a MLP a wide range of product-related information has to be archived properly. Therefore, this research work starts to develop a new PLM for MLP, also called ResCoM PLM which will be one of the most powerful support tools for information management and decision-making of MLP manufacturing. As the beginning of ResCoM PLM research, this thesis targets to create a framework and foundation of ResCoM PLM research. Concepts and terminologies in the area of PLM for MLP are established systematically, and the ambiguous or overlapped concepts and terms presented in the state-of-the-art will be compared and explained. IDEF0 information model of MLP is createdby investigating the essential activities of implementing MLP, i.e. product design, business design, closed loop supply chain management and remanufacturing/manufacturing. Through elaborating the mutual interdependence, interactions, feedback and causalities among the essential activities and revealing the information and material flows of MLP manufacturing helps the readers to have deep understanding of MLP manufacturing and identify the issues of ResCoM PLM research.
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Lund, Jonathan Gary. "The Storage of Parametric Data in Product Lifecycle Management Systems." Diss., CLICK HERE for online access, 2006. http://contentdm.lib.byu.edu/ETD/image/etd1257.pdf.

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Silva, Alex Sandro de Araújo. "Proposta de um método para definição de requisitos de sistemas PLM (Product Lifecycle Management)." Instituto Tecnológico de Aeronáutica, 2011. http://www.bd.bibl.ita.br/tde_busca/arquivo.php?codArquivo=1987.

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A proposta desse trabalho é desenvolver o método REQ4PLM que auxiliará empresas nacionais no processo de definição de requisitos para seleção de sistemas PLM. No método proposto, os processos do ciclo de vida do produto são modelados e analisados para identificação de stakeholders, seus interesses e indicadores de desempenho. Feito o isso, o método proporciona a determinação dos diversos requisitos necessários definição de um sistema PLM por meio da modelagem em um nível de abstração satisfatório, em linguagem SysML, de um sistema sócio técnico composto por processos, software e seus usuários. Após sua a definição, o método é demonstrado em um ambiente de desenvolvimento de produtos. O método desenvolvido e sua demonstração são discutidos de forma a analisar a aplicabilidade do método, vantagens e desvantagens e seu posicionamento na literatura encontrada sobre o tema. Ao final do trabalho os resultados são analisados conjuntamente aos objetivos estabelecidos inicialmente, bem como, são dadas sugestões para trabalhos futuros no tema abordado.
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Morshedzadeh, Iman. "Data Classification in Product Data Management." Thesis, Högskolan i Skövde, Institutionen för teknik och samhälle, 2013. http://urn.kb.se/resolve?urn=urn:nbn:se:his:diva-14651.

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This report is about the product data classification methodology that is useable for the Volvo Cars Engine (VCE) factory's production data, and can be implemented in the Teamcenter software. There are many data generated during the life cycle of each product, and companies try to manage these data with some product data management software. Data classification is a part of data management for most effective and efficient use of data. With surveys that were done in this project, items affecting the data classification have been found. Data, attributes, classification method, Volvo Cars Engine factory and Teamcenter as the product data management software, are items that are affected data classification. In this report, all of these items will be explained separately. With the knowledge obtained about the above items, in the Volvo Cars Engine factory, the suitable hierarchical classification method is described. After defining the classification method, this method has been implemented in the software at the last part of the report to show that this method is executable.
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Lucaioli, Marco. "Product Lifecycle Management. Fasi, sviluppo e peculiarità del caso Bosch Rexroth." Master's thesis, Alma Mater Studiorum - Università di Bologna, 2019.

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il lavoro di tesi descrive innanzitutto il significato del Product Lifecycle Management e l'importanza del monitoraggio del prodotto. inoltre viene analizzato il ciclo di vita del prodotto ed è descritta la figura del Product Manager con le sue competenze e le attività principali che svolge in azienda. sono elencate e decritte inoltre le fasi del PLM pre e post lancio sul mercato con esemplificazioni. Inoltre viene descritta la storia e l'organigramma di Bosch Rexroth e i prodotti che l'azienda produce. Infine viene delineato il progetto Solenoid e le attività che un product manager della Bosch Rexroth ha il compito di eseguire e monitorare. seguono le conclusioni dell'elaborato con possibili sviluppi futuri.
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Bouhaddou, Imane. "Vers une optimisation de la chaine logistique : proposition de modèles conceptuels basés sur le PLM (Product Lifecycle Management)." Thesis, Le Havre, 2015. http://www.theses.fr/2015LEHA0026/document.

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Consciente que l’unité de compétitivité n’est plus l’entreprise mais toute la chaîne logistique contribuant à la réalisation du produit, les efforts consentis par l’entreprise se matérialisent, d’une part, par la volonté de maîtriser au mieux les activités de conception des produits et d’autre part, par la construction de collaborations entre tous les acteurs de la chaîne logistique participant au cycle de vie du produit. Cela a conduit à l’émergence d’une gestion collaborative du cycle de vie du produit appelée communément PLM. L’objet de cette thèse consiste à définir une démarche méthodologique pour répondre à la problématique suivante : Comment le PLM pourra t-il participer à l’optimisation de la chaîne logistique ? Nous adoptons, dans cette thèse, une approche hybride combinant PLM et modèles mathématiques pour optimiser les décisions de conception simultanée du produit et de sa chaîne logistique. Nous proposons des modèles conceptuels pour résoudre de manière formelle le compromis entre PLM et modèles mathématiques pour une optimisation de la chaîne logistique. Contrairement aux approches classiques centralisées utilisées pour traiter le problème intégré de conception du produit et de sa chaîne logistique et qui engendrent des modèles mathématiques compliqués, nous adoptons une démarche couplant des décisions centralisées quand il s’agit d’intégrer les contraintes des différents maillons de la chaîne logistique et une approche décentralisée quand il s’agit d’optimiser localement chaque maillon de la chaîne. Le mode décentralisé réduit la complexité de résolution des modèles mathématiques et permet à la chaîne logistique de répondre rapidement à l’évolution des conditions locales de chaque maillon. Le PLM joue le rôle d’intégrateur. En effet, le regroupement centralisé des informations par le PLM permet de prendre en considération la dépendance entre les maillons améliorant ainsi les résultats obtenus par optimisation locale
AIt is recognized that competition is shifting from “firm versus firm” perspective to “supply chain versus supply chain” perspective. Therefore, the ability to optimize the supply chain is becoming the critical issue for companies to win the competitive advantage. Furthermore, all members of a given supply chain must work together to respond to the changes of market demand rapidly. In the actual context, enterprises not only must enhance their relationships with each others, but also need to integrate their business processes through product life cycle activities. This has led to the emergence of a collaborative product lifecycle management commonly known as PLM. The objective of this thesis is to define a methodological approach which answers to the following problematic: How can PLM contribute to supply chain optimization ? We adopt, in this thesis, a hybrid approach combining PLM and mathematical models to optimize decisions for simultaneous design of the product and its supply chain. We propose conceptual models to solve formally the compromise between PLM and mathematical models for supply chain optimization. Unlike traditional centralized approaches used to treat the problem of integrated design of the product and its supply chain which generate complex mathematical models, we adopt an approach combining centralized decisions while integrating the constraints of the different supply chain partners during the product design and decentralized decisions when it comes to locally optimize each supply chain partner. The decentralized approach reduces the complexity of solving mathematical models and allows the supply chain to respond quickly to the evolution of local conditions of each partner. PLM will assure the integration of the different supply chain partners. Indeed, the information centralization by the PLM enables to take into consideration the dependence between these partners, improving therefore local optimization results
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Paviot, Thomas. "Méthodologie de résolution des problèmes d'interopérabilité dans le domaine du Product Lifecycle Management." Phd thesis, Ecole Centrale Paris, 2010. http://tel.archives-ouvertes.fr/tel-00504680.

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Le travail de recherche présenté dans ce mémoire s'intéresse aux problèmes d'interopérabilité dans le domaine du Product Lifecycle Management (PLM) et vise à proposer une méthodologie capable d'y remédier. Nous définissons l'objectif stratégique du PLM comme la maîtrise de la complexité qui caractérise le développement et le suivi des produits. Dans ce cadre, l'objectif de l'interopérabilité est le contrôle des interactions entre constituants de ce système complexe PLM. Nous montrons que cet objectif est atteint si on assure la continuité et la conservation du flux sémantique qui circule dans le système. Notre étude est restreinte aux seuls domaines de la conception et de la production, mais a l'ambition de pouvoir s'appliquer à d'autres domaines. La continuité du flux sémantique est assurée par une architecture que nous avons baptisée « médiation multi-échelle orientée services ». Le cœur de cette architecture, le médiateur, se charge d'orienter les flux sémantiques vers les systèmes concernés, et met en correspondance sémantique les informations échangées en s'appuyant sur un méta-modèle d'unification. Nous montrons que pour assurer la robustesse, la flexibilité et l'agilité du système ainsi constitué, il faut privilégier le choix d'un méta-modèle standard générique et extensible. A cet effet, nous proposons une cartographie du standard STEP permettant de choisir le méta-modèle pertinent. Nous illustrons le choix et la définition de ce méta-modèle dans le cas de deux problèmes d'interopérabilité des domaines de la conception et de la production : l'interopérabilité CAO/PDM et l'interopérabilité PDM/ERP. Nous expliquons notre démarche dans la mise en œuvre de la norme PLCS. Par ailleurs, nous introduisons un modèle d'annotations sémantiques du produit qui permet de reconstruire des vues multiples correspondant à différents besoins métiers. Un ensemble de démonstrateurs permet de valider nos propositions et nos résultats.
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Books on the topic "Product Lifecycle Management (PLM)"

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Elangovan, Uthayan. Product Lifecycle Management (PLM). First edition. | Boca Raton : CRC Press, 2020.: CRC Press, 2020. http://dx.doi.org/10.1201/9781003001706.

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Noël, Frédéric, Felix Nyffenegger, Louis Rivest, and Abdelaziz Bouras, eds. Product Lifecycle Management. PLM in Transition Times: The Place of Humans and Transformative Technologies. Cham: Springer Nature Switzerland, 2023. http://dx.doi.org/10.1007/978-3-031-25182-5.

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Rivest, Louis. Product Lifecycle Management. Towards Knowledge-Rich Enterprises: IFIP WG 5.1 International Conference, PLM 2012, Montreal, QC, Canada, July 9-11, 2012, Revised Selected Papers. Berlin, Heidelberg: Springer Berlin Heidelberg, 2012.

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Saaksvuori, Antti, and Anselmi Immonen. Product Lifecycle Management. Berlin, Heidelberg: Springer Berlin Heidelberg, 2004. http://dx.doi.org/10.1007/978-3-540-24799-9.

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Stark, John. Product Lifecycle Management. London: Springer London, 2011. http://dx.doi.org/10.1007/978-0-85729-546-0.

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Giordano, Max, Luc Mathieu, and François Villeneuve, eds. Product Lifecycle Management. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2010. http://dx.doi.org/10.1002/9781118557921.

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Stark, John. Product Lifecycle Management. Cham: Springer International Publishing, 2015. http://dx.doi.org/10.1007/978-3-319-17440-2.

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Saaksvuori, Antti, and Anselmi Immonen. Product Lifecycle Management. Berlin, Heidelberg: Springer Berlin Heidelberg, 2008. http://dx.doi.org/10.1007/978-3-540-78172-1.

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Eigner, Martin, and Ralph Stelzer. Product Lifecycle Management. Berlin, Heidelberg: Springer Berlin Heidelberg, 2009. http://dx.doi.org/10.1007/b93672.

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1973-, Immonen Anselmi, ed. Product lifecycle management. 3rd ed. Berlin: Springer, 2008.

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Book chapters on the topic "Product Lifecycle Management (PLM)"

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Eigner, Martin, and Ralph Stelzer. "PLM-Einführungsplanung." In Product Lifecycle Management, 385–415. Berlin, Heidelberg: Springer Berlin Heidelberg, 2009. http://dx.doi.org/10.1007/b93672_11.

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Stark, John. "PLM and PDM." In Product Lifecycle Management (Volume 1), 221–42. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-28864-8_6.

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Stark, John. "PLM and PDM." In Product Lifecycle Management (Volume 1), 217–39. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-030-98578-3_6.

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Eigner, Martin, and Ralph Stelzer. "Wirtschaftlichkeitsbetrachtungen von PLM-Lösungen." In Product Lifecycle Management, 353–83. Berlin, Heidelberg: Springer Berlin Heidelberg, 2009. http://dx.doi.org/10.1007/b93672_10.

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Elangovan, Uthayan. "PLM Components." In Product Lifecycle Management (PLM), 1–13. First edition. | Boca Raton : CRC Press, 2020.: CRC Press, 2020. http://dx.doi.org/10.1201/9781003001706-1.

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Elangovan, Uthayan. "PLM Ecosystem." In Product Lifecycle Management (PLM), 15–27. First edition. | Boca Raton : CRC Press, 2020.: CRC Press, 2020. http://dx.doi.org/10.1201/9781003001706-2.

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Stark, John. "Product Lifecycle Management (PLM)." In Product Lifecycle Management (Volume 1), 1–33. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-28864-8_1.

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Eigner, Martin. "Product Lifecycle Management (PLM)." In Modellbasierte Virtuelle Produktentwicklung, 267–300. Berlin, Heidelberg: Springer Berlin Heidelberg, 2014. http://dx.doi.org/10.1007/978-3-662-45874-7_12.

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Stark, John. "Product Lifecycle Management (PLM)." In Product Lifecycle Management (Volume 1), 1–32. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-030-98578-3_1.

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Saaksvuori, Antti, and Anselmi Immonen. "Deployment of the PLM system." In Product Lifecycle Management, 74–97. Berlin, Heidelberg: Springer Berlin Heidelberg, 2004. http://dx.doi.org/10.1007/978-3-540-24799-9_6.

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Conference papers on the topic "Product Lifecycle Management (PLM)"

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Liu, Wei, Yong Zeng, Michael Maletz, and Dan Brisson. "Product Lifecycle Management: A Survey." In ASME 2009 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. ASMEDC, 2009. http://dx.doi.org/10.1115/detc2009-86983.

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This paper presents an overview of the field of Product Lifecycle Management (PLM). Though PLM has many facets, this paper mainly focus on the business drivers, requirements, concept and components behind the PLM as well as the technical foundations and the status of PLM academic research and industry solutions. Furthermore, a holistic roadmap of PLM is presented. The future research trends and challenges are finally discussed.
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Fukushige, Shinichi, Yuki Matsuyama, Eisuke Kunii, and Yasushi Umeda. "Consistency Management System Between Product Design and the Lifecycle." In ASME 2013 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. American Society of Mechanical Engineers, 2013. http://dx.doi.org/10.1115/detc2013-13575.

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Within the framework of sustainability in manufacturing industry, product lifecycle design is a key approach for constructing resource circulation systems of industrial products that drastically reduce environmental loads, resource consumption and waste generation. In such design, designers should consider both a product and its lifecycle from a holistic viewpoint, because the product’s structure, geometry, and other attributes are closely coupled with the characteristics of the lifecycle. Although product lifecycle management (PLM) systems integrate product data during its lifecycle into one data architecture, they do not focus on support for lifecycle design process. In other words, PLM does not provide explicit models for designing product lifecycles. This paper proposes an integrated model of a product and its lifecycle and a method for managing consistency between the two. For the consistency management, three levels of consistency (i.e., topological, geometric, and semantic) are defined. Based on this management scheme, the product lifecycle model allows designers to evaluate environmental, economic, and other performance of the designed lifecycle using lifecycle simulation.
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Patil, Lalit, Debasish Dutta, and Ram Sriram. "Ontology Formalization of Product Semantics for Product Lifecycle Management." In ASME 2005 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. ASMEDC, 2005. http://dx.doi.org/10.1115/detc2005-85121.

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Product Lifecycle Management (PLM) is a concept that takes into account that the development of a product is influenced by knowledge from various stakeholders throughout its lifecycle. Computing environments in the PLM framework are expected to have several independent information resources. This requires a meaningful formal representation of product data semantics throughout the product’s lifecycle. This paper presents an ontological approach to formalize product semantics into a Product Semantic Representation Language (PSRL). Building blocks to develop the explicit, extensible and comprehensive PSRL are described. The PSRL is open and based on standard W3L OWL constructs. The extensibility is demonstrated by considering an example product. The representation and the method of its development is expected to support several applications in the context of PLM. The use of OWL will enable the provision of the application software and information resources as Web services in the context of the Semantic Web.
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Gambini, Pierpaolo, Marco Alemanni, Danilo Cannoletta, Mauro Macciç, and Davide Pinna. "Product Lifecycle Management (PLM) to support Product Development processes." In 4th International ICST Conference on Simulation Tools and Techniques. ACM, 2011. http://dx.doi.org/10.4108/icst.simutools.2011.245508.

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Jovanovic, Vukica. "An Overview of Possible Integration of Green Design Principles Into Mechatronic Product Development Through Product Lifecycle Management." In ASME 2009 International Manufacturing Science and Engineering Conference. ASMEDC, 2009. http://dx.doi.org/10.1115/msec2009-84309.

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People that work on the development of mechatronic products do not have enough data related to the end of the product lifecycle when making decisions related to the product design. Sustainable design tools in Product Lifecycle Management (PLM) systems could enable more sustainable designs with ‘greener’ decision-making. PLM tools, which are supporting designs of mechatronic products, are lacking more consideration about the product’s overall lifecycle ecological footprint. Most decisions that are made during the design phase are based on costs of materials and processes that are involved in development and manufacturing, not to the service, reuse, recycling and disposal of such products. This study will investigate the possibility of including the data related to the end of the product lifecycle. Integrating green design tools into the PLM systems would help mechatronic engineers to develop more sustainable designs. This paper will investigate the current state of the art in the area of Product Lifecycle Management systems that support design and realization of mechatronic projects. It discusses some ideas that can be used for determining a framework for data capturing of electro-mechanical product related data. This would connect decisions in earlier phases with the ones in final stages of a product lifecycle. This data can be used for the environmental footprint determination.
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Qiao, Guixiu, and Charles McLean. "Manufacturing Information Integration in Product Lifecycle Management (PLM)." In ASME 2004 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. ASMEDC, 2004. http://dx.doi.org/10.1115/detc2004-57745.

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The research on manufacturing information integration in PLM calls for a new fundamental information technology to enable adaptive information representation and exchange between manufacturing applications. Four major problems are studied, including interchangeable common data representation, management of information access, information reuse, and disturbance reflection of information change. An information model for manufacturing simulation is built. Problem about the abstraction of real models to virtual models is also discussed. A neutral model of shop information, developed by NIST based on the eXtensible Markup Language (XML), is detailed in this paper with illustrations from industrial applications.
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Singh, Shikha, and Subhas Chandra Misra. "Success determinants to Product Lifecycle Management (PLM) performance." In 2018 5th International Conference on Industrial Engineering and Applications (ICIEA). IEEE, 2018. http://dx.doi.org/10.1109/iea.2018.8387130.

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Puzović, Sanja, Jasmina Vesić Vasović, and Vladan Paunović. "PLM Education: The Role of Engineering Management Study Programs." In 9th International Scientific Conference Technics and Informatics in Education. University of Kragujevac, Faculty of Technical Sciences Čačak, 2022. http://dx.doi.org/10.46793/tie22.364p.

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Due to its ability to support the achievement of operational and strategic business excellence despite complex business conditions, growing globalization, demanding customers, and shorter product lifecycles, the Product Lifecycle Management concept (PLM concept) is becoming the most significant industry initiative today, while PLM education is becoming an essential strategy in the education of future engineers. The paper emphasized the necessity for the promotion of PLM education by academic communities, discussed PLM education issues, and identified key PLM competencies. It also explores the role of Engineering Management study programs in educating professionals with comprehensive PLM competencies.
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Rafaj, Milan, and Stefan Valcuha. "Technology Solution for Small and Medium Sized Enterprises." In ASME 2014 12th Biennial Conference on Engineering Systems Design and Analysis. American Society of Mechanical Engineers, 2014. http://dx.doi.org/10.1115/esda2014-20374.

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Generally product lifecycle management (PLM) is characterized as an integrated management process of product information and related processes across the product lifecycle. PLM affects development time of product and optimize the cooperation of all components of the development process of products. Therefore attention has to be paid to this fact in production and research. Processes across the entire product lifecycle management are complex and it is difficult to support various levels of cooperation. It is necessary to identify technological solutions to facilitate the implementation of PLM systems into processes of product life cycle. In the paper is presented derivation of technology solutions for PLM (product lifecycle information modeling and management, product lifecycle knowledge management, design chain management, product lifecycle process management, product trade exchange, collaborative product service and product lifecycle portal for stakeholder, developer, customer, manufacturer and supplier) and applications of advanced information technologies for implementation of PLM. In the paper is also described the technological solution which was developed to meet industrial requirements and obtain long term sustainability in today’s highly competitive market. Currently, still only a few small and medium-sized enterprises (SMEs) uses real benefits that PLM offers. The small and medium-sized enterprises also try to implement those technologies but, despite their flexibility, they have difficulties in structuring and exchanging information. Enterprises also have problems in creating data models for structuring and sharing product information, especially in the context of extended enterprises. It is caused by several factors that may have information, technical and financial character. Article refers and highlights the benefits that PLM brings by extension of PLM into so called “Closed-Loop Lifecycle Management (CL2M)”. It also describes the major barriers to the implementation of PLM in SME and propose possible solutions.
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Panchal, Jitesh H., Marco Gero Ferna´ndez, Christiaan J. J. Paredis, Janet K. Allen, and Farrokh Mistree. "Designing Design Processes in Product Lifecycle Management: Research Issues and Strategies." In ASME 2004 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. ASMEDC, 2004. http://dx.doi.org/10.1115/detc2004-57742.

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Product Lifecycle Management (PLM) promises to further a holistic consideration of product design, emphasizing integration, interoperability, and sustainability throughout a product’s lifecycle. Thus far, efforts have focused on addressing lifecycle concerns from a product-centric perspective by exploiting the reusability and scalability of existing products through product platform and product family design. Not much attention has been paid to leveraging the design process and its design in addressing lifecycle considerations, however. In striving for sustainability, it is the design process that should be considered to constitute an engineering enterprise’s primary resource commitment. In this paper, an overview of the challenges inherent in designing design processes is provided. These challenges are subsequently illustrated with regard to several design scenarios of varying complexity, using an example involving the design of Linear Cellular Alloys. A distinction is made between product related requirements/goals and design process related requirements/goals. Requirements, research issues, and strategies for addressing the diverse needs of modeling design processes from a decision-centric perspective are established. Finally, key elements for enabling the integrated design of products and their underlying design processes in a systematic fashion are provided, motivating the extension of PLM to include the lifecycle considerations of design processes, thereby moving towards Design Process Lifecycle Management (DPLM).
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Reports on the topic "Product Lifecycle Management (PLM)"

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Subrahmanian, Eswaran, Sudarsan Rachuri, Steven Fenves, Sebti Foufou, and Ram D. Sriram. Product lifecycle management support :. Gaithersburg, MD: National Institute of Standards and Technology, 2005. http://dx.doi.org/10.6028/nist.ir.7211.

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Patil, Lalit, Debasish Dutta, and Ram D. Sriram. Ontology formalization of product semantics for product lifecycle management. Gaithersburg, MD: National Institute of Standards and Technology, 2005. http://dx.doi.org/10.6028/nist.ir.7274.

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Bouras, Abdelaziz, Sudarsan Rachuri, Eswaran Subrahmanian, and Jean-Philippe Lagrange. ICT for supply chains and product lifecycle management :. Gaithersburg, MD: National Institute of Standards and Technology, 2007. http://dx.doi.org/10.6028/nist.ir.7464.

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Subrahmanian, Eswaran, Sudarsan Rachuri, Abdelaziz Bouras, Steven J. Fenves, Sebti Foufou, and Ram D. Sriram. The role of standards in product lifecycle management support. Gaithersburg, MD: National Institute of Standards and Technology, 2006. http://dx.doi.org/10.6028/nist.ir.7289.

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Noonan, Nicholas James. Product Lifecycle Management Architecture: A Model Based Systems Engineering Analysis. Office of Scientific and Technical Information (OSTI), July 2015. http://dx.doi.org/10.2172/1191879.

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Ford, David, Thomas Housel, and Johnathan Mun. Ship Maintenance Processes with Collaborative Product Lifecycle Management and 3D Terrestrial Laser Scanning Tools: Reducing Costs and Increasing Productivity. Fort Belvoir, VA: Defense Technical Information Center, April 2011. http://dx.doi.org/10.21236/ada543988.

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Ford, David N., Thomas J. Housel, and Johnathan C. Mun. Ship Maintenance Processes with Collaborative Product Lifecycle Management and 3D Terrestrial Laser Scanning Tools: Reducing Costs and Increasing Productivity. Fort Belvoir, VA: Defense Technical Information Center, September 2011. http://dx.doi.org/10.21236/ada555680.

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Ford, David N., Tom Housel, Sandra Hom, and Johnathan Mun. Make or Buy: An Analysis of the Impacts of 3D Printing Operations, 3D Laser Scanning Technology, and Collaborative Product Lifecycle Management on Ship Maintenance and Modernization Cost Savings. Fort Belvoir, VA: Defense Technical Information Center, March 2015. http://dx.doi.org/10.21236/ad1016676.

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