Global ETD Search

21	Conceptual design of multi-domain systems: products and materials Dietz, Timothy Paul 08 April 2010 (has links) A key challenge facing designers creating innovative products is concept generation. Conceptual design is more effective when the design space is broadened by using an integrated design of product and material concepts approach. Conceptual design can also be accelerated by including problem solving and solution triggering tools in its structure. In this approach, structured analogy is used to transfer underlying principles from a solution suitable in one domain (i.e., product or mechanical domain) to an analogous solution in another domain (i.e., material domain). The nature of design analogy does not require as full of an exploration of the target domain as would otherwise be necessary; affording the possibility of a more rapid development. The addition of problem solving and solution triggering tools to a design method also decreases the design time and/or improves the quality of the final solution. This approach is formulated through a combination of the Theory of Inventive Problem Solving (TRIZ) proposed by Altshuller, and the systematic approach of Pahl and Beitz, for products that are jointly considered at the product and material level. These types of problems are ones where customer performance requirements are fulfilled through both the designed product and the designed material. The systematic approach of Pahl and Beitz is used as the base method through which TRIZ is used as a means of transferring abstract information about the design problem between the domains with the aim of accelerating conceptual design. This also allows for multi-domain design tools such as Su-Field-Model integration with design repositories for the transfer of information at different levels of abstraction; expanding the design space and effectively directing the designer. The explanation of this approach is presented through a simple example of a spring design improvement and validated through concept generation of a reactive material containment system. TIPS TRIZ Systematic design Materials design Product design Design Multi-domain systems Engineering design Problem solving Decision support systems
22	Numerical study of coherent structures within a legacy LES code and development of a new parallel frame work for their computation Giammanco, Raimondo 22 December 2005 (has links) The understanding of the physics of the Coherent Structures and their interaction with the remaining fluid motions is of paramount interest in Turbulence Research. <p>Indeed, recently had been suggested that separating and understanding the the different physical behavior of Coherent Structures and "uncoherent" background might very well be the key to understand and predict Turbulence. Available understanding of Coherent Structures shows that their size is considerably larger than the turbulent macro-scale, making permissible the application of Large Eddy Simulation to their simulation and study, with the advantage to be able to study their behavior at higher Re and more complex geometry than a Direct Numerical Simulation would normally allow. Original purpose of the present work was therefore the validation of the use of Large Eddy Simulation for the study of Coherent Structures in Shear-Layer and the its application to different flow cases to study the effect of the flow topology on the Coherent Structures nature.<p>However, during the investigation of the presence of Coherent Structures in numerically generated LES flow fields, the aging in house Large Eddy Simulation (LES) code of the Environmental & Applied Fluid Dynamics Department has shown a series of limitations and shortcomings that led to the decision of relegating it to the status of Legacy Code (from now on indicated as VKI LES legacy code and of discontinuing its development. A new natively parallel LES solver has then been developed in the VKI Environmental & Applied Fluid Dynamics Department, where all the shortcomings of the legacy code have been addressed and modern software technologies have been adopted both for the solver and the surrounding infrastructure, delivering a complete framework based exclusively on Free and Open Source Software (FOSS ) to maximize portability and avoid any dependency from commercial products. The new parallel LES solver retains some basic characteristics of the old legacy code to provide continuity with the past (Finite Differences, Staggered Grid arrangement, Multi Domain technique, grid conformity across domains), but improve in almost all the remaining aspects: the flow can now have all the three directions of inhomogeneity, against the only two of the past, the pressure equation can be solved using a three point stencil for improved accuracy, and the viscous terms and convective terms can be computed using the Computer Algebra System Maxima, to derive discretized formulas in an automatic way.<p>For the convective terms, High Resolution Central Schemes have been adapted to the three-dimensional Staggered Grid Arrangement from a collocated bi-dimensional one, and a system of Master-Slave simulations has been developed to run in parallel a Slave simulation (on 1 Processing Element) for generating the inlet data for the Master simulation (n - 1 Processing Elements). The code can perform Automatic Run-Time Load Balancing, Domain Auto-Partitioning, has embedded documentation (doxygen), has a CVS repository (version managing) for ease of use of new and old developers.<p>As part of the new Frame Work, a set of Visual Programs have been provided for IBM Open Data eXplorer (OpenDX), a powerful FOSS Flow visualization and analysis tool, aimed as a replacement for the commercial TecplotTM, and a bug tracking mechanism via Bugzilla and cooperative forum resources (phpBB) for developers and users alike. The new M.i.O.m.a. (MiOma) Solver is ready to be used again for Coherent Structures analysis in the near future. / Doctorat en sciences appliquées / info:eu-repo/semantics/nonPublished Sciences de l'ingénieur Electronique générale Fluid dynamics Turbulence Fluides, Dynamique des Turbulence multi domain staggered grid open source parallell
23	A Comparative Case Study on How the Swedish and British Armed Forces Use Multi Domains in Aspects of Methods, Technology, and Organization / En jämförande fallstudie om hur den svenska och brittiska Försvarsmakten använder multidomänbegreppet i form av metoder, teknologi och organisation Keyvanpour, Daniel January 2022 (has links) The multi-domain operations are vaguely defined and there are a variety of interpretations. In general terms, multi-domain can be described as a means of communication between different joint forces such as land, water, air, cyber, and space. In multi-domain operations, the focus is on how those domains can integrate using technologies, methods, and planning. By interviewing individuals with long experience in both the British and Swedish Armed Forces and conducting a literature study, the focus has been on understanding how multi-domain operations as a concept are understood, interpreted, and implemented in the respective nation’s operations today regarding the technology and organizational structure. The results were compared with frameworks such as Federated Mission Networking (FMN) and Level of Information Systems Interoperability (LISI). The analysis shows that both the Swedish and British Armed Forces need greater interoperability. In order to have a better ability to cooperate within their forces, a more agile approach to the organization is needed that takes advantage of information and communication technologies. This can be achieved by managing different protocols through the different layers and models and by introducing a cloud service that functions as a cloud service function where the information flow is fast and easily accessible, independent of the domain. Multi-Domain Operations Interoperability Organization C2 Systems C2 Agility Federated Mission Networking (FMN) Communication Interaction Technologies Interaktionsteknik
24	Exploring Multi-Domain and Multi-Modal Representations for Unsupervised Image-to-Image Translation Liu, Yahui 20 May 2022 (has links) Unsupervised image-to-image translation (UNIT) is a challenging task in the image manipulation field, where input images in a visual domain are mapped into another domain with desired visual patterns (also called styles). An ideal direction in this field is to build a model that can map an input image in a domain to multiple target domains and generate diverse outputs in each target domain, which is termed as multi-domain and multi-modal unsupervised image-to-image translation (MMUIT). Recent studies have shown remarkable results in UNIT but they suffer from four main limitations: (1) State-of-the-art UNIT methods are either built from several two-domain mappings that are required to be learned independently or they generate low-diversity results, a phenomenon also known as model collapse. (2) Most of the manipulation is with the assistance of visual maps or digital labels without exploring natural languages, which could be more scalable and flexible in practice. (3) In an MMUIT system, the style latent space is usually disentangled between every two image domains. While interpolations within domains are smooth, interpolations between two different domains often result in unrealistic images with artifacts when interpolating between two randomly sampled style representations from two different domains. Improving the smoothness of the style latent space can lead to gradual interpolations between any two style latent representations even between any two domains. (4) It is expensive to train MMUIT models from scratch at high resolution. Interpreting the latent space of pre-trained unconditional GANs can achieve pretty good image translations, especially high-quality synthesized images (e.g., 1024x1024 resolution). However, few works explore building an MMUIT system with such pre-trained GANs. In this thesis, we focus on these vital issues and propose several techniques for building better MMUIT systems. First, we base on the content-style disentangled framework and propose to fit the style latent space with Gaussian Mixture Models (GMMs). It allows a well-trained network using a shared disentangled style latent space to model multi-domain translations. Meanwhile, we can randomly sample different style representations from a Gaussian component or use a reference image for style transfer. Second, we show how the GMM-modeled latent style space can be combined with a language model (e.g., a simple LSTM network) to manipulate multiple styles by using textual commands. Then, we not only propose easy-to-use constraints to improve the smoothness of the style latent space in MMUIT models, but also design a novel metric to quantitatively evaluate the smoothness of the style latent space. Finally, we build a new model to use pretrained unconditional GANs to do MMUIT tasks.
25	Computational Models of Brain Energy Metabolism at Different Scales Cheng, Yougan 11 June 2014 (has links) No description available. Applied Mathematics Biology Mathematics Multi-domain Reaction-Diffusion Equations Brain Energy Metabolism MCMC Spatially Distributed Models Optimization
26	Network and Middleware Security for Enterprise Network Monitoring Gopalakrishnan, Aravind 19 July 2012 (has links) No description available. Computer Engineering Computer Science perfSONAR E-perfSONAR Federated security Shibboleth Kerberos Resource Protection Service
27	Modélisation intégrée produit-process à l'aide d'une approche de métamodélisation reposant sur une représentation sous forme de graphes : Application à la fabrication additive / Product-process integrated meta-modeling using a graph-based approach : Application to additive manufacturing Mokhtarian, Hossein 27 March 2019 (has links) La fabrication additive (FA) a initié un changement de paradigme dans le secteur de la conception et de la fabrication des produits grâce à ses capacités uniques. Cependant, l'intégration des technologies de fabrication additive dans la productique traditionnelle doit permettre d'assurer une production fiable et une qualité reproductible des pièces. Dans cette optique, la modélisation et la simulation jouent un rôle essentiel pour améliorer la compréhension de la nature complexe et multi-physique des procédés de fabrication additive. De plus, l’intégration simultanée de différents modèles multi-physiques et de la prise en compte du procédé utilisé et de la pièce constituent toujours un défi pour la modélisation de ces technologies. L’objectif final de cette recherche est de développer et d’appliquer une approche de modélisation permettant une modélisation intégrée de la fabrication additive. Cette thèse analyse le processus de développement du produit et présente une méthodologie innovante intitulée ‘Dimensional Analysis Conceptual Modeling’ (DACM) pour modéliser les produits et les procédés de fabrication aux différentes étapes de conception. La méthode a été développée pour permettre la simulation de modèles multi-physiques. Elle intègre également une recherche systématique de faiblesses et de contradictions dans une première évaluation des solutions potentielles au problème. La méthodologie développée est appliquée dans plusieurs études de cas afin de présenter des modèles intégrant les processus de fabrication additive et les pièces à fabriquer. Les résultats montrent que la méthodologie DACM permet de modéliser distinctement et simultanément le produit et le processus de fabrication. Cette méthodologie permet aussi d'intégrer les modèles théoriques et expérimentaux déjà existants. Elle contribue à la conception pour la fabrication additive et aide le concepteur à anticiper les limites des procédés et de la conception plus tôt dans les premières étapes de développement du produit. En particulier, cela permet de prendre les bonnes décisions selon les différentes possibilités d'optimiser la conception des pièces et le paramétrage des machines de fabrication additive pour aboutir à la solution la plus adaptée. La méthode permet également de détecter la nécessité de reconcevoir des machines existantes en détectant les faiblesses de celles-ci. Cette thèse montre que la méthode DACM peut être potentiellement utilisée comme une approche de méta-modélisation pour la fabrication additive.Mots-clés: Fabrication Additive, Conception Pour la Fabrication Additive, Modélisation Intégrée, Développement de Produit, Dimensional Analysis Conceptual Modeling Framework / Additive manufacturing (AM) has created a paradigm shift in product design and manufacturing sector due to its unique capabilities. However, the integration of AM technologies in the mainstream production faces the challenge of ensuring reliable production and repeatable quality of parts. Toward this end, Modeling and simulation play a significant role to enhance the understanding of the complex multi-physics nature of AM processes. In addition, a central issue in modeling AM technologies is the integration of different models and concurrent consideration of the AM process and the part to be manufactured. Hence, the ultimate goal of this research is to present and apply a modeling approach to develop integrated modeling in additive manufacturing. Accordingly, the thesis oversees the product development process and presents the Dimensional Analysis Conceptual Modeling (DACM) Framework to model the product and manufacturing processes at the design stages of product development process. The Framework aims at providing simulation capabilities and systematic search for weaknesses and contradictions to the models for the early evaluation of solution variants. The developed methodology is applied in multiple case studies to present models integrating AM processes and the parts to be manufactured. This thesis results show that the proposed modeling framework is not only able to model the product and manufacturing process but also provide the capability to concurrently model product and manufacturing process, and also integrate existing theoretical and experimental models. The DACM framework contributes to the design for additive manufacturing and helps the designer to anticipate limitations of the AM process and part design earlier in the design stage. In particular, it enables the designer to make informed decisions on potential design alterations and AM machine redesign, and optimized part design or process parameter settings. DACM Framework shows potentials to be used as a metamodeling approach for additive manufacturing. Développement de produits Fabrication additive Théorie des graphes Métamodèlisation Product development Additive Manufacturing Multi-Domain modeling and simulation Graph theory Metamodeling 620
28	Desenvolvimento de modelos numéricos para análise de problemas de interação de domínios bidimensionais / Development of numerical models for interaction problems of two-dimensional domain analysis Leite, Luciano Gobo Saraiva 26 February 2007 (has links) Neste trabalho foi desenvolvida uma formulação para análise de sólidos bidimensionais constituídos por multiregiões utilizando-se do método dos elementos de contorno para análise linear e não linear. Para o caso de análise linear foi estudado o caso de regiões constituídas por sub-regiões de diferentes características mecânicas, utilizando-se técnicas que inicialmente consideram a compatibilidade de deslocamentos e o equilíbrio de forças na interface entre as sub-regiões, antes de se escrever as equações de equilíbrio. Inicialmente foi feita uma formulação, chamada neste trabalho de formulação singular, onde leva-se em conta apenas os deslocamentos incógnitos na interface e, posteriormente, foi desenvolvida outra formulação denominada hipersingular, onde são preservadas na interface apenas as forças de superfície. Para inclusões muito esbeltas, foi utilizada a técnica da condensação de domínios, onde o domínio 2D foi condensado inicialmente em um domínio linear de fibra e posteriormente em viga. Foi utilizada a discretização de inclusões muito esbeltas com rigidez quase nula visando a simular o comportamento de uma região de fratura elástica. A formulação foi estendida para análise não linear. A técnica das tensões iniciais foi adotada para modelar o sólido com regiões danificadas. Foi adotada a degeneração de inclusões muito esbeltas, que obedecem as leis constitutivas não lineares da mecânica do dano, simulando a origem de uma região de fratura. Para se melhorar a precisão das integrais, foi adotada a integração analítica sobre todo contorno e também sobre o domínio. Foram testados vários exemplos para validar os modelos propostos. / In this work, a boundary element formulation was developed to analyze 2D multiregions solids formed in the context of linear and non- linear analysis. Linear analysis was adopted to study problems containing regions with diferent elastic parameters. This formulation was used to study inclusion that could be degenerated to thin inclusion to represent the behavior of fibers and beams embedded in the main solid. For the linear problems, the sub-regions were adopted to represent structural elements with diferent mechanical characteristics. The sub regions were joined together by assuming the classical hypotheses of displacement compatibility and traction equilibrium along the interfaces, but applied before the approximation of the boundary and interface values. The alternative sub-region technique was developed initially to eliminate traction values along the interfaces, introducing therefore only unknown displacements. The technique was then modified to eliminate all displacements along the interface preserving the traction as unknowns. For the case of very thin inclusions the formulation has been simplified to simulate fiber and beam reinforcements. Appropriate displacement approximations across the thin sub-region have been assumed. In this inclusion was also analyzed with the elastic modulus degenerating to zero, simulating therefore a crack problem. The formulation has been extended to non-linear analysis. The initial stress procedure has been adopted to model solid with damaged regions. The damaged regions were assumed to be very small to simulate non-linear crack behavior governed by damage mechanic models. To improve the quality of the results all boundary and domains were integrated analytically. Many examples have been tested to certify that the proposed models are reliable. Boundary element method Condensação de domínios Damage Degeneração de domínios Domain condensation Domain degeneration Mecânica do dano Método dos elementos de contorno Multi-domain Multidomínios
29	A Certificate Based, Context Aware Access Control Model For Multi Domain Environments Yortanli, Ahmet 01 February 2011 (has links) (PDF) A certificate based approach is proposed for access control operations of context aware systems for multi domain environments. New model deals with the removal of inter-domain communication requirement in access request evaluation process. The study is applied on a prototype implementation with configuration for two dierent cases to show the applicability of the proposed certificate based, context aware access control model for multi domain environments. The outputs for the cases show that proposed access control model can satisfy the requirements of a context aware access control model while removing inter domain communication needs which may cause some latency in access request evaluation phase. QA Computer Software 76.75-76.765
30	複数の音声対話システムの統合制御機構とその評価河口, 信夫, Kawaguchi, Nobuo, 長森, 誠, Nagamori, Makoto, 松原, 茂樹, Matsubara, Shigeki, 稲垣, 康善, Inagaki, Yasuyoshi 06 1900 (has links) No description available. 音声認識統合制御機構 multi－domain spoken dialog system speech recognition unified management architecture

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