Relevant bibliographies by topics / Digital Mock Up

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

Academic literature on the topic 'Digital Mock Up'

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Published: 4 June 2021
Last updated: 27 April 2022

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Journal articles on the topic "Digital Mock Up"

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Reinhart, Gunther, Stefan Grunwald, Otto Murr, and Bernd Goldstein. "Management integrierter Digital Mock-up Entwicklungsprozesse." Zeitschrift für wirtschaftlichen Fabrikbetrieb 93, no. 12 (December 1, 1998): 632–36. http://dx.doi.org/10.1515/zwf-1998-0337.

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Abstract Im Rahmen des Forschungsverbundprojektes GiPP Das Forschungsverbundprojekt „Geschäftsprozeßgestaltung mit integrierten Produkt- und Prozeßmodellen" (GiPP) wird von BMBF gefördert. wurde am Institut für Werkzeugmaschinen und Betriebswissenschaften (iwb) der TU München zusammen mit Industriepartnern ein adaptives Prozeßmanagement für integrierte Digital Mock-up-Entwicklungsprozesse entwickelt. Damit werden komplexe rechnerunterstützte Entwicklungsaufgaben beherrschbar und stark verkürzte Entwicklungszyklen plan- und realisierbar.
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Yang, Yun Bing, Ke Wen Deng, and Fa Yuan Wei. "Study on Assembly Design Method Based Digital Mock-Up." Applied Mechanics and Materials 182-183 (June 2012): 1723–27. http://dx.doi.org/10.4028/www.scientific.net/amm.182-183.1723.

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The essentiality of assembly assessment and assembly optimization in design stage is analyzed, and the existent problems of conventional assembly design method are illuminated. ADMDMU (Assembly Design Method based Digital Mock-Up) is illuminated, and the process of ADMDMU established, and the ADMDMU architecture is given out. The key techniques of ADMDMU are analyzed, and include assembly design based KBE (Knowledge Based Engineering) and virtual assembly based physically attribute. According to physical attribute, physically based modeling, visual object movement control, force simulation method and assembly sequence planning method are emphatically illuminated. Assembly design system based DMU is established in foundation of ADMDMU.
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Dai, Sheng, Gang Zhao, Yong Yu, and Wei Wang. "Trend of Digital Product Definition:from Mock-up to Twin." Journal of Computer-Aided Design & Computer Graphics 30, no. 8 (2018): 1554. http://dx.doi.org/10.3724/sp.j.1089.2018.16831.

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Rooks, Brian. "A shorter product development time with digital mock‐up." Assembly Automation 18, no. 1 (March 1998): 34–38. http://dx.doi.org/10.1108/01445159810201405.

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Stefanini, Alberto Eugenio, Anika Nicolosi, and Monica Monachini. "A Mock-up for the Development of a Digital Edition for Ancient Greek Fragmentary Poetry." International Journal of Art, Culture and Design Technologies 8, no. 2 (July 2019): 41–57. http://dx.doi.org/10.4018/ijacdt.2019070103.

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Ancient Greek poetry is an essential part of the western cultural heritage; thus, it is important that people have access to its texts and whatever relates to their understanding in a reliable and easy way. Whenever user evaluation is concerned, mock-ups are used by designers to acquire feedback from users. A mock-up is defined as a model of the final product, and may be used for demonstration, evaluation and other purposes. The authors prototyped a mock-up for focusing on the requirements of a scholarly digital edition of Archilochus. This was put under evaluation to assess its usability: it was submitted to extensive use and testing by a sample of prospective users, to better focus on the requirements from a product's perspective. Experimentation involved a group of university students, attending a Greek Philology course at Parma University. More than half of the respondents considered the mock-up a useful study support. The evaluation also pointed out that the mock-up had to be revised, so as to guarantee better cognitive simplicity of the user interface.
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Ranglani, Sagar, Takashi Michikawa, and Hiromasa Suzuki. "Reuse of Digital Mock-Up Data by Using Shape Matching." Key Engineering Materials 523-524 (November 2012): 410–13. http://dx.doi.org/10.4028/www.scientific.net/kem.523-524.410.

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We present a framework for reuse of digital mock-up models. Our idea is to find reusable models in the archives by shape matching. Since the reusable models are already designed by operators in the past projects, we can easily create various types of data by using existing models. Indeed, we demonstrate this framework is efficient for surface simplification and CAE mesh generation problems.
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O’Connor Esteban, Miriam, Elena Riad Deglow, Álvaro Zubizarreta-Macho, and Sofía Hernández Montero. "Influence of the Digital Mock-Up and Experience on the Ability to Determine the Prosthetically Correct Dental Implant Position during Digital Planning: An In Vitro Study." Journal of Clinical Medicine 9, no. 1 (December 24, 2019): 48. http://dx.doi.org/10.3390/jcm9010048.

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The purpose of this study was to analyze the influence of the digital mock-up and operator experience on the dental implant planning position. A total of 200 dental implants were planned, which were distributed into two study groups: A. dental implant planning by dental surgeons with 5–10 years of experience (n = 80); and B. dental implant planning by dental surgery students without experience (n = 120). Operators were required to plan eight dental implants in the same maxillary edentulous case uploaded in 3D implant-planning software, before and after using the digital mock-up. Deviations between the dental implant planning positions before and after using the digital mock-up were analyzed at platform, apical and angular levels, and were analyzed using a 3D implant-planning software using Student’s t test. The paired t-test revealed statistically significant differences between the deviation levels of participants with 5–10 years’ experience and no experience at the platform, apical and angular levels. Digital mock-ups allow for more accurate dental implant planning regardless of the experience of the operator. Nevertheless, they are more useful for operators without dental surgery experience.
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Schweiger, W., D. Levichev, A. Schon, and H. Meerkamm. "Digital Mock-up in the Early Stages of Mechatronic Product Design." Journal of Engineering Design 10, no. 3 (September 1999): 235–46. http://dx.doi.org/10.1080/095448299261308.

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Friel, Imelda, J. Butterfield, Trevor Thomas Robinson, and Adelaide Marzano. "Tolerance aware product development using an enriched hybrid digital mock up." CIRP Journal of Manufacturing Science and Technology 30 (August 2020): 118–30. http://dx.doi.org/10.1016/j.cirpj.2020.04.009.

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Song, In-Ho, and Sung-Chong Chung. "Synthesis of the digital mock-up system for heterogeneous CAD assembly." Computers in Industry 60, no. 5 (June 2009): 285–95. http://dx.doi.org/10.1016/j.compind.2008.09.004.

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Dissertations / Theses on the topic "Digital Mock Up"

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Weber, Peter [Verfasser]. "Digital Mock-up im Maschinenbau / Peter Weber." Aachen : Shaker, 2003. http://d-nb.info/1170541348/34.

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Quentin, Cochard. "Metadata implementation through the Digital Mock-Up." Thesis, KTH, Flygdynamik, 2017. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-211159.

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Airbus is one of the two leaders in commercial aircraft manufacturing. This field of production is the biggest in amount of parts to design, products and assemblies. Moreover, as nowadays computing has become the fastest way to work, not only it has surrounded the current work places physically but also digitally speaking. In fact, the big issue of all companies and in particular Airbus, is to manage the flow of data provided by the different engineering teams like design, simulations, testing or production. Currently, the management of this Metadata is poorly developed and it creates loss of time andfrustration when the time has come to find it. To counteract to this growing concern, the Airbus solution project can be resumed by one sentence : "Configuerd Digital Mock-Up as master". It aims at gathering all the data from the different engineering teams and to provide an intuitive way to exploit them through the DMU. In the case of my study, I had to work on one aspect of this big project. I discovered the Airbus way of working and supported several projects to improve the cDMU (configuered Digital Mock-Up) as Master.
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Oscarsson, Jan. "Enhanced virtual manufacturing : advanced digital mock-up technology with simulation variances." Thesis, De Montfort University, 2000. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.391840.

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Silva, Fábio Rodrigues da. "Contribuição de mock-ups digitais na análise de manufaturabilidade de produtos automotivos baseados no Lean Product Development Process." Universidade de Taubaté, 2011. http://www.bdtd.unitau.br/tedesimplificado/tde_busca/arquivo.php?codArquivo=250.

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A competitividade do mercado automotivo global exige que as empresas automobilísticas forneçam um fluxo contínuo de novos produtos, para manter seus níveis de market share. A capacidade de desenvolver produtos com qualidade e inovadores no mercado, transformou-se na marca do sucesso das empresas competitivas. Os especialistas identificaram o desenvolvimento de produtos neste ambiente de alta pressão, como fundamentais para a sobrevivência organizacional. Este trabalho tem como objetivo mostrar práticas que contribuem como mecanismos de ligação entre o Processo Lean de Desenvolvimento de Produtos e o sistema de fabricação fundamentada no Lean Manufacturing. A análise será feita em uma das etapas do projeto do produto, dentro de um ambiente de Engenharia Simultânea, voltada para a manufaturabilidade, utilizando mock-ups digitais. Espera-se ganhos de performance do produto no chão-de-fábrica, a redução de retrabalhos no projeto do produto, e por conseqüência uma redução do lead-time total do programa. Será utilizada uma abordagem quantitativa, com o propósito de avaliar resultados, sobre um programa de um novo veículo, tendo como fonte de dados os diários, documentos e históricos de desenvolvimento e de soluções de problemas de manufaturabilidade, em três casos específicos. Para a análise dos dados foram utilizados números comparativos entre o tempo de desenvolvimento com a aplicação da metodologia proposta e o tempo histórico com a metodologia tradicional incluindo os tempos de correções dos problemas não identificados previamente. As análises realizadas dos dados e informações obtidas indicam que as análises de manufaturabilidade através de mock-ups digitais, podem contribuir com ganhos de aproximadamente 15% no lead-time e uma redução na ordem de 1,64M nos gastos totais do programa, mostrando que as análises de manufaturabilidade, aplicadas ainda na fase embrionária do desenvolvimento do produto, em uma organização fundamentada na filosofia Lean, contribuem eficazmente em um programa para novos veículos na indústria automobilística.
The competitiveness of the global automotive market demands that car companies provide a continuous stream of new products to maintain their levels of market share. The ability to develop innovative and quality products on the market, became the hallmark of successful businesses competitive. Experts identified the development of products in this high-pressure environment as fundamental to organizational survival. This paper aims to demonstrate practices that serve as mechanisms linking the Lean Product Development Process and Manufacturing System based on Lean Manufacturing. The analysis will be done in one step from product design, within a Concurrent Engineering environment, focused on the feasibility by using digital mockups. It is expected gains in product performance on the factory floor, reducing rework in product design, and consequently a reduced lead-time total program. Will use a quantitative approach, in order to assess results on a program of a new vehicle, with the source data diaries, documents and historical development and feasibility solutions for problems in three specific cases. For the analysis of data were used comparative figures between the time of development with the proposed methodology and time history with the traditional methods including time correction of problems not previously identified. The analyzes of the data and information obtained indicates that the analysis of feasibility using digital mock-ups, can help with gains of around 15% for lead-time and a reduction in the order of 1.64 M in total expenditures of the program, showing that the analysis for feasibility, applied even at the embryonic stage of product development in an organization based on the Lean philosophy, contribute effectively in a program for new vehicles in the automotive industry.
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Freund, Gerd. "Entwicklung eines methodischen Vorgehens zur Einführung von Digital Mock-Up-Techniken in den Produktentwicklungsprozess der Automobilindustrie." Doctoral thesis, Technische Universitaet Bergakademie Freiberg Universitaetsbibliothek "Georgius Agricola&quot, 2009. http://nbn-resolving.de/urn:nbn:de:swb:105-3743592.

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Der Einsatz von Digital Mock-Up-Techniken (DMU-Techniken) ermöglicht es, die Produktentwicklung effizienter und effektiver zu gestalten. Das Ergebnis der Promotion stellt ein Quality Function Deployment-gestütztes methodisches Verfahren dar, mit dessen Hilfe DMU-Techniken in die Produktentwicklungsprozesse der Automobilindustrie eingeführt werden können. Das methodische Verfahren wurde innerhalb eines großen deutsch-amerikanischen Automobilunternehmens entwickelt. Vorteile des Einführungsverfahrens sind die geringeren Aufwendungen bei der Implementierung von DMU-Techniken. Weitere Vorteile des Einführungsverfahrens sind die strukturierte Dokumentation des Einführungsprozesses, die stringente Verwendung der Kundenanforderungen, die Konzentration des Expertenwissens auf einige wenige Visualisierungstechniken (House of Quality).
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Freund, Gerd. "Entwicklung eines methodischen Vorgehens zur Einführung von Digital- mock-up-Techniken in den Produktentwicklungsprozess der Automobilindustrie." [S.l. : s.n.], 1997. http://deposit.ddb.de/cgi-bin/dokserv?idn=972663827.

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Freund, Gerd. "Entwicklung eines methodischen Vorgehens zur Einführung von Digital Mock-Up-Techniken in den Produktentwicklungsprozess der Automobilindustrie." Freiberg : TU Bergakademie Freiberg, Fakultät Maschinenbau, Verfahrens- und Energietechnik, 2004. https://fridolin.tu-freiberg.de/archiv/html/MaschinenbauFreundGerd374359.html.

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Vidal, Andréia Prado Cortizo. "Digital smile design (DSD): influência na percepção e preferência do paciente e do cirurgião-dentista quanto a estética do sorriso no Mock up." Universidade Federal de Goiás, 2018. http://repositorio.bc.ufg.br/tede/handle/tede/9103.

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Aesthetic perception is a highly subjective concept and the opinion of professionals regarding smile aesthetic evaluation may not meet the perception and expectation of patients and lay people. Tools such as the Digital Smile Design (DSD) allows reproducing to the patient in a more comprehensive way, what was planned by the professional, still in the phases that anticipates the execution of the restorative treatment, such as diagnostic the wax-up and mock-up. However, the result obtained by the DSD may not meet the patient’s expectations, besides being a stage that demands time and training. This work aimed to evaluate whether the use of the DSD influences the making of the diagnostic wax up and the perception and preference of the patient and the dentist on the aesthetics of the smile with mock ups obtained from waxes with and without DSD. The sample consisted of 10 patients recruited from individuals who had interest and need for aesthetic smile treatment and 10 dentists who use the DSD on a regular basis. Initially, two wax-up were performed for each patient, one performed in the traditional way, without the DSD, and another guided by the DSD. Two mock-ups were performed, one for each wax-up. After installation, the following photographs were taken with the mock-up: 1. frontal facial at rest, 2. frontal facial at maximum smile, 3. frontal lip approximation at rest, 4. frontal lip approximation at maximum smile, 5. frontal lip approximation with retractor . The photos were presented to the patients individually, along with a Preference Sheet, where they assigned the alternative regarding the smile that most pleased them: 1. photo without intervention; 2. mock-up photo with DSD; 3. mock-up photo without DSD; 4. none of the above; 5. indifferent. The patients opted on their own photos and the dentists evaluated the photos of each one of the 10 patients. It has been observed that there is a tendency by the patients and dentists to prefer the mock-up without DSD, possibly because it is closer to the natural morphology of the teeth.
A percepção estética é um conceito altamente subjetivo e a opinião de profissionais em relação a avaliação estética do sorriso pode não coincidir com a percepção e expectativa de pacientes e leigos. Ferramentas computacionais como o Digital Smile Design (DSD) permitem apresentar para o paciente de uma maneira mais compreensível o que foi planejado pelo profissional, ainda nas fases que antecipam a execução do tratamento restaurador, como enceramento diagnóstico e mock up. Porém, o resultado obtido com o DSD pode não corresponder às expectativas do paciente, além de ser uma etapa que demanda tempo e treinamento. Este trabalho objetivou avaliar se o uso do DSD influencia na obtenção do enceramento diagnóstico e na percepção e preferência do paciente e do cirurgião-dentista quanto a estética do sorriso com mock ups obtidos a partir de enceramentos com e sem DSD. A amostra foi composta por 10 (dez) pacientes recrutados dentre indivíduos que tinham interesse e necessidade de tratamento estético do sorriso e 10 (dez) cirurgiões-dentistas que fazem uso corriqueiro do DSD. Inicialmente foram realizados dois enceramentos diagnósticos para cada paciente, sendo um obtido de forma tradicional, sem auxílio do DSD, e outro obtido de forma orientada com o DSD. Foram realizados dois mock ups para cada enceramento. Após instalação de cada mock up foram feitas as seguintes fotografias: 1. facial frontal em repouso, 2. facial frontal em sorriso máximo, 3. frontal aproximada dos lábios em repouso, 4. frontal aproximada dos lábios em sorriso máximo e 5. frontal aproximada em máxima intercuspidação habitual (MIH) com afastador. As fotos foram apresentadas aos participantes de forma individual, juntamente com uma Ficha de Preferência, onde assinalaram a alternativa referente ao sorriso que mais os agradou: 1. foto sem intervenção; 2. foto do mock up com DSD; 3. foto do mock up sem DSD; 4. nenhuma das anteriores; 5. indiferente. Os pacientes opinaram em relação a suas próprias fotografias e os cirurgiões-dentistas avaliaram as fotografias de cada um dos 10 pacientes. Observou-se que existe uma tendência por parte dos pacientes e cirurgiões-dentistas em preferir o mock up sem DSD, por este possivelmente se aproximar mais da morfologia natural dos dentes.
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Li, Bo. "L'interface multi-utilisateur pour le travail collaboratif avec les multiples représentations de la maquette numérique." Thesis, Paris, ENSAM, 2017. http://www.theses.fr/2017ENAM0065/document.

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Les outils actuels de gestion industrielle s'appuient généralement sur l'ingénierie concourante, qui implique la réalisation des étapes de gestion du cycle de vie des produits en parallèle et l'intégration des données techniques pour le partage entre les différents experts. Divers experts utilisent des logiciels spécifiques à leur domaine pour produire diverses données compilées via une maquette numérique. Ces experts multidisciplinaires ont tendance à travailler en collaboration pendant le développement de produits. Au cours d'activités de conception collaborative synchrones, telles que les revues de projet et la prise de décisions, les experts de différents domaines doivent dialoguer, négocier et choisir pour résoudre les différences multidisciplinaires. De nombreux domaines tels que la conception collaborative et de l’évaluation des produits avec multiples experts, ont une grande demande de nouveaux outils d'aide à la collaboration. Avec le développement des technologies de l'Interaction Homme-Machine (IHM), il est possible de concevoir des outils et des méthodes plus intuitifs pour améliorer la collaboration co-localisée entre les experts.Dans cette thèse, afin d'améliorer la collaboration avec des experts de différents domaines et communiquer via la maquette numérique, une IHM multi-utilisateurs avec des représentations différentes lors d'un travail collaboratif a été pris en considération et son influence sur la collaboration multidisciplinaire co-localisée est étudiée. Un schéma de la méthodologie d'évaluation de la contribution à un système multi-utilisateurs et des expérimentations sont proposées. Les résultats des expériences des résultats significatifs concernant l’efficacité de la réalisation de la tâche, l'utilisabilité de l'Interaction Homme-Machine et la performance de la collaboration lors de l'utilisation de l'interface multi-utilisateurs dans les scénarios de collaboration multidisciplinaires. Les contributions et apports de cette interface sont discutés
The current industrial management tools generally rely on Concurrent Engineering, which involves conducting Product Lifecycle Management stages in parallel and integrating technical data for sharing across different experts. Various experts use domain-specific software to produce various data into Digital mock-up. These multidisciplinary experts have trends to work collaboratively during product development. During co-located synchronous collaborative design activities, such as project review and decision-making, experts from different domains must discuss, negotiate, and compromise to solve multidisciplinary differences. Many areas, such as early collaborative design and multi-expert product evaluation, have a great demand for new collaborative support tools. With the development of Human Computer Interaction, it is possible to devise more intuitive tools to enhance co-located collaboration across experts.In this thesis, to enhance the collaboration with experts on different domains to communicate with DMU, a multi-user interface across users with different representations during a collaborative work has been taken into consideration and its influence on co-located multidisciplinary collaboration is investigated. A schema of the methodology for evaluating the contribution to a multi-user system and the multiple users’ experiences is proposed. Results of experiments show the significances of the efficiency of task, the usability of interface, and the performance of collaboration during the use of multi-user CHI in multidisciplinary collaborative scenarios. The contributions of what multi-user interface brings to the design criteria of multi-user interface and multi-user co-located collaboration are discussed
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Vosgien, Thomas. "Ingénierie systèmes basée sur les modèles appliquée à la gestion et l'intégration des données de conception et de simulation : application aux métiers d'intégration et de simulation de systèmes aéronautiques complexes." Thesis, Châtenay-Malabry, Ecole centrale de Paris, 2015. http://www.theses.fr/2015ECAP0011/document.

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L’objectif de cette thèse est de contribuer au développement d’approches méthodologiques et d’outils informatiques pour développer les chaînes d’intégration numériques en entreprise étendue. Il s’agit notamment de mieux intégrer et d’optimiser les activités de conception, d’intégration et de simulation dans le contexte du développement collaboratif des produits/systèmes complexes.La maquette numérique (DMU) – supportée par un système de gestion de données techniques (SGDT ou PDM) – est devenue ces dernières années un environnement fédérateur clé pour échanger et partager une définition technique et une représentation 3D commune du produit entre concepteurs et partenaires. Cela permet aux concepteurs ainsi qu’aux utilisateurs en aval (ceux qui sont en charge des simulations numériques notamment) d’avoir un accès à la géométrie du produit virtuel assemblé. Alors que les simulations numériques 3D et 2D prennent une place de plus en plus importante dans le cycle de développement du produit, la DMU offre de nouvelles perspectives à ces utilisateurs pour récupérer et exploiter les données CAO appropriées et adaptées pour les analyses par éléments finis. Cela peut ainsi permettre d’accélérer le processus de préparation du modèle de simulation. Cependant, les environnements industriels de maquettes numériques sont actuellement limités dans leur exploitation par : - un manque de flexibilité en termes de contenu et de structure, - l’absence d’artefact numérique 3D permettant de décrire les interfaces des composants de l’assemblage, - un manque d’intégration avec les données et activités de simulation.Cette thèse met notamment l’accent sur les transformations à apporter aux DMU afin qu’elles puissent être utilisées comme données d’entrée directes pour les analyses par éléments finis d’assemblages volumineux (plusieurs milliers de pièces). Ces transformations doivent être en cohérence avec le contexte et les objectifs de simulation et cela nous a amené au concept de « vue produit » appliquée aux DMUs, ainsi qu’au concept de « maquette comportementale » (BMU). Une « vue produit » définit le lien entre une représentation du produit et l’activité ou le processus utilisant ou générant cette représentation. La BMU est l’équivalent de la DMU pour les données et les processus de simulation. Au delà des géométries discrétisées, la dénommée BMU devrait, en principe, lier toutes les données et les modèles qui seront nécessaires pour simuler le comportement d’un ou plusieurs composants. L’élément clé pour atteindre l’objectif d’élargir le concept établi de la DMU (basée sur des modèles CAO) à celui de la BMU (basée sur des modèles CAE), est de trouver un concept d’interface bidirectionnel entre la BMU et sa DMU associée. C’est l’objectif du « Design-Analysis System Integration Framework » (DASIF) proposé dans cette thèse de doctorat. Ce cadre a vise à être implémenté au sein d’environnements PLM/SLM et doit pouvoir inter-opérer à la fois avec les environnements CAD-DMU et CAE-BMU. DASIF allie les fonctionnalités de gestion de données et de configuration des systèmes PDM avec les concepts et formalismes d’ingénierie système basée sur les modèles (MBSE) et des fonctionnalités de gestion des données de simulation (SDM). Cette thèse a été menée dans le cadre d’un projet de recherche européen : le projet CRESCENDO qui vise à développer le « Behavioural Digital Aircraft » (BDA) qui a pour vocation d’être la« colonne vertébrale » des activités de conception et simulation avancées en entreprise étendue. Le concept du BDA doit s’articuler autour d’une plateforme collaborative d’échange et de partage des données de conception et de simulation tout au long du cycle de développement et de vie des produits aéronautiques. [...]
The aim of this doctoral thesis is to contribute to the facilitation of design, integration and simulation activities in the aeronautics industry, but more generally in the context of collaborative complex product development. This objective is expected to be achieved through the use and improvement of digital engineering capabilities. During the last decade, the Digital Mock-Up (DMU) – supported by Product Data Management (PDM) systems – became a key federating environment to exchange/share a common 3D CAD model-based product definition between co-designers. It enables designers and downstream users(analysts) to access the geometry of the product assembly. While enhancing 3D and 2D simulations in a collaborative and distributed design process, the DMU offers new perspectives for analysts to retrieve the appropriate CAD data inputs used for Finite Element Analysis (FEA), permitting hence to speed-up the simulation preparation process. However, current industrial DMUs suffer from several limitations, such as the lack of flexibility in terms of content and structure, the lack of digital interface objects describing the relationships between its components and a lack of integration with simulation activities and data.This PhD underlines the DMU transformations required to provide adapted DMUs that can be used as direct input for large assembly FEA. These transformations must be consistent with the simulation context and objectives and lead to the concept of “Product View” applied to DMUs andto the concept of “Behavioural Mock-Up” (BMU). A product view defines the link between a product representation and the activity or process (performed by at least one stakeholder) that use or generate this representation as input or output respectively. The BMU is the equivalent of the DMU for simulation data and processes. Beyond the geometry, which is represented in the DMU,the so-called BMU should logically link all data and models that are required to simulate the physical behaviour and properties of a single component or an assembly of components. The key enabler for achieving the target of extending the concept of the established CAD-based DMU to the behavioural CAE-based BMU is to find a bi-directional interfacing concept between the BMU and its associated DMU. This the aim of the Design-Analysis System Integration Framework (DASIF) proposed in this PhD. This framework might be implemented within PLM/SLM environments and interoperate with both CAD-DMU and CAE-BMU environments. DASIF combines configuration data management capabilities of PDM systems with MBSE system modelling concepts and Simulation Data Management capabilities.This PhD has been carried out within a European research project: the CRESCENDO project, which aims at delivering the Behavioural Digital Aircraft (BDA). The BDA concept might consist in a collaborative data exchange/sharing platform for design-simulation processes and models throughout the development life cycle of aeronautics products. Within this project, the Product Integration Scenario and related methodology have been defined to handle digital integration chains and to provide a test case scenario for testing DASIF concepts. These latter have been used to specify and develop a prototype of an “Integrator Dedicated Environment” implemented in commercial PLM/SLM applications. Finally the DASIF conceptual data model has also served as input for contributing to the definition of the Behavioural Digital Aircraft Business Object Model: the standardized data model of the BDA platform enabling interoperability between heterogeneous PLM/SLM applications and to which existing local design environments and new services to be developed could plug
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Books on the topic "Digital Mock Up"

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Oscarsson, Jan. Enhanced virtual manufacturing: Advanced digital mock-up technology with simulation of variances. Leicester: De Montfort University, 2000.

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Germany) Paderborner Workshop Augmented & Virtual Reality in der Produktentstehung (1st 2002 Paderborn. Augmented & virtual reality in der Produktentstehung: Grundlagen, Methoden und Werkzeuge ; virtual prototyping/digital mock up, digitale Fabrik ; Integration von AR/VR in industrielle Geschäftsprozesse. Paderborn: Heinz Nixdorf Institut, 2002.

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Book chapters on the topic "Digital Mock Up"

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Riascos, Roberto, Laurent Levy, Josip Stjepandić, and Arnulf Fröhlich. "Digital Mock-up." In Concurrent Engineering in the 21st Century, 355–88. Cham: Springer International Publishing, 2015. http://dx.doi.org/10.1007/978-3-319-13776-6_13.

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Berchtold, S., H. P. Kriegel, and M. Pötke. "Database support for concurrent digital mock-up." In Globalization of Manufacturing in the Digital Communications Era of the 21st Century, 499–509. Boston, MA: Springer US, 1998. http://dx.doi.org/10.1007/978-0-387-35351-7_40.

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Stark, Rainer. "Major Technology 6: Digital Mock-Up—DMU." In Virtual Product Creation in Industry, 273–304. Berlin, Heidelberg: Springer Berlin Heidelberg, 2022. http://dx.doi.org/10.1007/978-3-662-64301-3_12.

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Toche, Boris, Robert Pellerin, Clément Fortin, and Greg Huet. "Set-Based Prototyping with Digital Mock-Up Technologies." In Product Lifecycle Management. Towards Knowledge-Rich Enterprises, 299–309. Berlin, Heidelberg: Springer Berlin Heidelberg, 2012. http://dx.doi.org/10.1007/978-3-642-35758-9_26.

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Gu, Edward Y. L. "Digital Human Modeling: 3D Mock-Up and Motion Generation." In A Journey from Robot to Digital Human, 467–532. Berlin, Heidelberg: Springer Berlin Heidelberg, 2013. http://dx.doi.org/10.1007/978-3-642-39047-0_10.

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Gu, Edward Y. L. "Digital Mock-Up and 3D Animation for Robot Arms." In A Journey from Robot to Digital Human, 205–29. Berlin, Heidelberg: Springer Berlin Heidelberg, 2013. http://dx.doi.org/10.1007/978-3-642-39047-0_6.

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Krause, Frank-Lothar, and Uwe Rothenburg. "New Application Areas of Digital Mock-up Within Product Development." In Methods and Tools for Co-operative and Integrated Design, 303–14. Dordrecht: Springer Netherlands, 2004. http://dx.doi.org/10.1007/978-94-017-2256-8_26.

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Bietzker, Benedikt, Oliver Karch, and Hartmut Noltemeier. "Using Randomized Algorithms for Digital Mock-Up in Automotive Industry." In Lecture Notes in Computer Science, 417–25. Berlin, Heidelberg: Springer Berlin Heidelberg, 2000. http://dx.doi.org/10.1007/10720076_38.

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Cavallo, E., R. C. Michelini, R. M. Molfino, and R. P. Razzoli. "Robotic equipment for deep-sea operation: Digital mock-up and assessment." In IFIP Advances in Information and Communication Technology, 533–42. Boston, MA: Springer US, 2002. http://dx.doi.org/10.1007/978-0-387-35492-7_48.

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Mas, Fernando, Alejandro Gómez, José Luis Menéndez, and José Ríos. "Proposal for the Conceptual Design of Aeronautical Final Assembly Lines Based on the Industrial Digital Mock-Up Concept." In Product Lifecycle Management for Society, 10–19. Berlin, Heidelberg: Springer Berlin Heidelberg, 2013. http://dx.doi.org/10.1007/978-3-642-41501-2_2.

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Conference papers on the topic "Digital Mock Up"

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Demouzon, F., and P. A. Chevrin. "Cost Reduction Through Digital Mock-Up." In ASME 1998 International Gas Turbine and Aeroengine Congress and Exhibition. American Society of Mechanical Engineers, 1998. http://dx.doi.org/10.1115/98-gt-262.

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Digital mockups have become an integral part of the design of aircraft engines and their environment (nacelle, pylon). In this paper, we show that the conventional physical mockup is not a necessity any more. In fact, the experience of the CFM56-7 design shows that the adjustments required to compensate for the absence of a physical mockup have brought with them a considerable amount of flexibility and reactivity. Thus the deletion of tile physical mockup means a lot more than the corresponding direct savings it generates. Relying solely on the digital mockup is a major change in the design process, and greatly contributes to the global quality of the product.
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"ASSEMBLY SIMULATION THROUGH A DIGITAL MOCK-UP APPLICATION." In Special Session on Manufacturing Simulation and Industrial Engineering. SciTePress - Science and and Technology Publications, 2011. http://dx.doi.org/10.5220/0003650304920497.

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Rossi, Daniele. "Smart architectural models: Spatial projection-based augmented mock-up." In 2013 Digital Heritage International Congress (DigitalHeritage). IEEE, 2013. http://dx.doi.org/10.1109/digitalheritage.2013.6744835.

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Dai, Fan, and Peter Reindl. "Enabling Digital Mock-up With Virtual Reality Techniques: Vision, Concept, Demonstrator." In ASME 1996 Design Engineering Technical Conferences and Computers in Engineering Conference. American Society of Mechanical Engineers, 1996. http://dx.doi.org/10.1115/96-detc/dfm-1406.

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Abstract Mock-ups and prototypes are very important for design evaluations. In the automotive and aeronauic industries, CAD and CAE systems are used more and more. There is a strong attempt to replace a great part of mock-ups with digital models — the so called Digital Mock-Ups. Many companies have started to evaluate existing tools and technologies, and think about, or begin to develop virtual prototyping systems for their own needs. In this paper, we present the idea of Digital Mock-Up which is developed within the ESPRIT project AIT - Advanced Information Technologies in Design and Manufacturing1, and show the vision of virtual prototyping — the use of virtual reality techniques for Digital Mock-Up, based on the AIT-DMU-demonstrator.
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Xun, Cheng, and Zhao Qiang. "Facilitating collaboration management via management-oriented digital mock-up." In 2016 IEEE 20th International Conference on Computer Supported Cooperative Work in Design (CSCWD). IEEE, 2016. http://dx.doi.org/10.1109/cscwd.2016.7566042.

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Nagano, M. "Digital Mock-Up and Working Simulation on Mixed Reality." In International Conference on Computer Applications in Shipbuilding 2015. RINA, 2015. http://dx.doi.org/10.3940/rina.iccas.2015.33.

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Enge-Rosenblatt, Olaf, Christoph Clauß, André Schneider, and Peter Schneider. "Functional Digital Mock-up and the Functional Mock-up Interface – Two Complementary Approaches for a Comprehensive Investigation of Heterogeneous Systems." In The 8th International Modelica Conference, Technical Univeristy, Dresden, Germany. Linköping University Electronic Press, 2011. http://dx.doi.org/10.3384/ecp11063748.

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Chapurlat, Vincent, and Blazo Nastov. "Deploying MBSE in SME context: revisiting and equipping Digital Mock-Up." In 2020 IEEE International Symposium on Systems Engineering (ISSE). IEEE, 2020. http://dx.doi.org/10.1109/isse49799.2020.9272230.

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Zhang, Xiwen, Gang Zhao, Yong Yu, Sheng Dai, and Wei Wang. "Web Based Visualization of Digital Mock-Up with Standardized 3D Formats." In 2016 4th International Conference on Machinery, Materials and Information Technology Applications. Paris, France: Atlantis Press, 2016. http://dx.doi.org/10.2991/icmmita-16.2016.173.

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Sabbah, Adel Olaf, Albert Zaindl, and Heiner Bubb. "Design of a Mock-up for Supported Ingress/Egress Using a DHM." In Digital Human Modeling for Design and Engineering Conference and Exhibition. 400 Commonwealth Drive, Warrendale, PA, United States: SAE International, 2009. http://dx.doi.org/10.4271/2009-01-2268.

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