Global ETD Search

121	Étude de la vulnérabilité et de la robustesse des ouvrages / Vulnerability and robustness analyses of systems Kagho Gouadjio, Nadia Christiana 11 January 2013 (has links) Le terme de robustesse structurale donne lieu à diverses définitions et domaines d'application. Dans le domaine de l'ingénierie structurale, le cadre réglementaire des Eurocodes définit la robustesse structurale comme « l'aptitude d'une structure à résister à des événements tels que les incendies, les explosions, les chocs ou les conséquences d'une erreur humaine, sans présenter de dégâts disproportionnés par rapport à la cause d'origine ». Cette définition fait clairement ressortir les notions de dommage initial (défaillance locale) et de dommage disproportionné (défaillance globale). Cette thèse propose une approche de la quantification de la robustesse structurale en contexte probabiliste pour mesurer l'impact d'une défaillance localisée sur la défaillance globale de la structure. L'objectif majeur de la thèse est de quantifier l'écart entre une défaillance locale et une défaillance globale, en introduisant différents indices de robustesse selon que la structure soit intègre ou initialement endommagée. Pour cela, dans le but de caractériser et quantifier les liens existant entre la performance des différents éléments d'une structure et la performance globale de la structure, il est nécessaire d'introduire une étude en système qui intègre de manière concomitante des notions de défaillance locale (modes de défaillance) et des notions de défaillance globale. Une recherche « par l'intérieur » des chemins de défaillance dominants est présentée. Le terme « par l'intérieur » est utilisé car c'est le cheminement interne de la défaillance dans la structure qui est recherché. Des méthodes de parcours d'arbre d'évènements sont introduites telles que la méthode des « branches et bornes », du β-unzipping, ou encore du β-unzipping avec bornage. Ces méthodes permettent d'identifier les chemins de défaillance dominants avec des temps de calcul raisonnables. En particulier, il est possible de déterminer le chemin de défaillance associé à la plus grande probabilité de défaillance, appelé encore chemin de référence. Une approche « par l'extérieur » est également proposée, qui consiste à identifier la défaillance globale sans parcourir un arbre d'évènement (et donc sans s'intéresser à l'ordre avec lequel la défaillance survient). Le terme « par l'extérieur » correspond donc à regarder la défaillance de manière globale sans chercher à déterminer la chronologie de la défaillance. Dans les deux cas, l'enjeu est au final de développer une démarche globale permettant d'apprécier et de quantifier la robustesse des structures neuves ou existantes au travers de méthodes et d'indices pouvant s'appliquer à une large variété de problèmes / Structural robustness is associated with several definitions depending on context. In the field of structural engineering, the Eurocodes define structural robustness as “the ability of a structure to withstand events like fire, explosions, impact or the consequences of human error, without being damaged to an extent disproportionate to the original cause”. Such a definition clearly involves concepts of local and global failures. This PhD work proposes a methodology to quantify structural robustness in a probabilistic way and to assess the impact of local failures on global failures. The main objective of this PhD is to quantify the gap between local and global failures by introducing several robustness indices proposed for undamaged and damaged structures. To qualify and quantify the relationships between the performance of the different structural components and the overall structural performance, it is necessary to introduce a system-level analysis which simultaneously considers concepts of local failure modes and global failure events. An inner approach is introduced to determine significant failure sequences and to characterize stochastically dominant failure paths identified by using branch-and-bound, β-unzipping, and mixed β-unzipping with bounding methods. These methods enable to determine significant failure paths with reasonable computational times. In particular, the path with the largest probability of occurrence is considered as the reference failure path. An outer approach is also proposed which identifies global failure without using an event-tree search (and, consequently, without analyzing the order in the failure sequence). This concept characterizes an overall and simultaneous failure of different components without determining the chronology in the failure event. In both cases, the goal is to provide a general and widely applicable framework for qualifying and quantifying the robustness level of new and existing structures through the introduction of methodologies and indices Robustesse Vulnérabilité Fiabilité Chemin de ruine critique Système structural Indice de robustesse Robustness Vulnerability Reliability Critical failure path Structural system Robustness index
122	Test et évaluation de la robustesse de la couche fonctionnelle d'un robot autonome / Test and Evaluation of the Robustness of the Functional Layer of an Autonomous Robot Chu, Hoang-Nam 01 September 2011 (has links) La mise en oeuvre de systèmes autonomes nécessite le développement et l'utilisation d'architectures logicielles multi-couches qui soient adaptées. Typiquement, une couche fonctionnelle renferme des modules en charge de commander les éléments matériels du système et de fournir des services élémentaires. Pour être robuste, la couche fonctionnelle doit être dotée de mécanismes de protection vis-à-vis de requêtes erronées ou inopportunes issues de la couche supérieure. Nous présentons une méthodologie pour tester la robustesse de ces mécanismes. Nous définissons un cadre général pour évaluer la robustesse d'une couche fonctionnelle par la caractérisation de son comportement vis-à-vis de requêtes inopportunes. Nous proposons également un environnement de validation basé sur l'injection de fautes dans le logiciel de commande d'un robot simulé. Un grand nombre de cas de tests est généré automatiquement par la mutation d'une séquence de requêtes valides. Les statistiques descriptives des comportements en présence de requêtes inopportunes sont analysées afin d'évaluer la robustesse du système sous test. / The implementation of autonomous systems requires the development and the using of multi-layer software architecture. Typically, a functional layer contains several modules that control the material of the system and provide elementary services. To be robust, the functional layer must be implemented with protection mechanisms with respect to erroneous or inopportune requests sent from the superior layer. We present a methodology for robustness testing these mechanisms. We define a general framework to evaluate the robustness of a functional layer by characterizing its behavior with respect to inappropriate requests. We also propose an validation environment based on fault injection in the control software of a simulated robot. A great number of test cases is generated automatically by the mutation of a sequence of valid requests. The descriptive statistics of the behaviors in the presence of inappropriate requests are analyzed in order to evaluate the robustness of the system under test. Robustesse Test de robustesse Système autonome Injection de fautes Propriétés de sécurité-innocuité Robustness Robustness testing Autonomous system Fault injection Safety properties
123	Systemeigenschaft Robustheit Heller, Ariane 28 October 2013 (has links) (PDF) In die Infrastruktur unserer Gesellschaft sind komplexe IT-Systeme fest eingebettet. Die Verbreitung und Verstetigung von IT-Systemen betrifft zentrale Bereiche unserer Gesellschaft beispielsweise Verkehrs-, Finanz- oder Gesundheitssystem. Lange Zeit standen funktionale Aspekte bei der Entwicklung informationstechnischer Systeme im Vordergrund. In den letzten Jahren haben sich jedoch nichtfunktionale Eigenschaften von IT-Systemen wie Robustheit zu unverzichtbaren Schlüsseleigenschaften in einer Vielzahl von Anwendungsfeldern entwickelt. Systeme während der Betriebsphase sind Veränderungen der gegebenen Einsatz- und Betriebsbedingungen durch Störungen der Umgebung oder auch Verschleißerscheinungen ausgesetzt. Ziel der Forschungsarbeit ist es ein Konzept für die Systemeigenschaft Robustheit zu entwickeln. Für ein gegebenes System mit einem definierten Funktionsziel ist zu analysieren, inwieweit es robust hinsichtlich Störungen der Einsatzbedingungen, verursacht durch Ereignisse der Umgebung, ist und folglich trotzdem das Funktionsziel erfüllt. Das vorgestellte Konzept umfasst dabei zwei wesentliche Problemstellungen: Bewertung der Robustheit Methode für robuste Systeme zur Laufzeit In Abhängigkeit der technischen Kennzahl, Robustheit, wird eine optimale Entscheidungsstrategie gewählt und so das Systemverhalten gesteuert. Mit der Integration eines Robustheitskonzepts insbesondere für den Systembetrieb soll anhand der Berücksichtigung der Systemeigenschaft Robustheit zur Laufzeit ein Beitrag zum Qualitätszuwachs bei Systemen geleistet werden. / Complex IT-systems are deeply embedded in the infrastructure of the society. The integration of these systems is important for plenty of areas such as the transportation system, the financial system or the health care system. For a long time, the functional aspects of the invention had been put forward. But lately the non-functional characteristics of IT-systems such as robustness have developed to essential key factors in many fields. A lot of systems are being exposed to environmental disturbances are showing during the stage of operation. This research work purpose is to develop a concept of robustness to increase system robustness. The robustness of embedded systems is supposed to be analyzed towards disturbances and terms of usage that were caused by the environment. Thereby the concept targets two main issues: measurement of the robustness and methods for robust systems concerning its duration. Depending on the value of robustness a proper decision is made in order to control the behavior of the system. Through an integration of the above mentioned concept, a rise of quality regarding the robustness of the system is pursued respecting its period of operation. optimale Entscheidungsstrategie Einflußfunktion Robustheit messen robustness measurement influence function optimal decision robustness ddc:000 ddc:004 Eingebettetes System Robustheit
124	Systemeigenschaft Robustheit Heller, Ariane 15 October 2013 (has links) In die Infrastruktur unserer Gesellschaft sind komplexe IT-Systeme fest eingebettet. Die Verbreitung und Verstetigung von IT-Systemen betrifft zentrale Bereiche unserer Gesellschaft beispielsweise Verkehrs-, Finanz- oder Gesundheitssystem. Lange Zeit standen funktionale Aspekte bei der Entwicklung informationstechnischer Systeme im Vordergrund. In den letzten Jahren haben sich jedoch nichtfunktionale Eigenschaften von IT-Systemen wie Robustheit zu unverzichtbaren Schlüsseleigenschaften in einer Vielzahl von Anwendungsfeldern entwickelt. Systeme während der Betriebsphase sind Veränderungen der gegebenen Einsatz- und Betriebsbedingungen durch Störungen der Umgebung oder auch Verschleißerscheinungen ausgesetzt. Ziel der Forschungsarbeit ist es ein Konzept für die Systemeigenschaft Robustheit zu entwickeln. Für ein gegebenes System mit einem definierten Funktionsziel ist zu analysieren, inwieweit es robust hinsichtlich Störungen der Einsatzbedingungen, verursacht durch Ereignisse der Umgebung, ist und folglich trotzdem das Funktionsziel erfüllt. Das vorgestellte Konzept umfasst dabei zwei wesentliche Problemstellungen: Bewertung der Robustheit und Methode für robuste Systeme zur Laufzeit. In Abhängigkeit der technischen Kennzahl, Robustheit, wird eine optimale Entscheidungsstrategie gewählt und so das Systemverhalten gesteuert. Mit der Integration eines Robustheitskonzepts insbesondere für den Systembetrieb soll anhand der Berücksichtigung der Systemeigenschaft Robustheit zur Laufzeit ein Beitrag zum Qualitätszuwachs bei Systemen geleistet werden. / Complex IT-systems are deeply embedded in the infrastructure of the society. The integration of these systems is important for plenty of areas such as the transportation system, the financial system or the health care system. For a long time, the functional aspects of the invention had been put forward. But lately the non-functional characteristics of IT-systems such as robustness have developed to essential key factors in many fields. A lot of systems are being exposed to environmental disturbances are showing during the stage of operation. This research work purpose is to develop a concept of robustness to increase system robustness. The robustness of embedded systems is supposed to be analyzed towards disturbances and terms of usage that were caused by the environment. Thereby the concept targets two main issues: measurement of the robustness and methods for robust systems concerning its duration. Depending on the value of robustness a proper decision is made in order to control the behavior of the system. Through an integration of the above mentioned concept, a rise of quality regarding the robustness of the system is pursued respecting its period of operation. optimale Entscheidungsstrategie Einflußfunktion Robustheit messen robustness measurement influence function optimal decision robustness ddc:000 ddc:004 Eingebettetes System Robustheit
125	A Hybrid Method for Sensitivity Optimization With Application to Radio-Frequency Product Design Lee, Abraham 01 December 2014 (has links) (PDF) A method for performing robust optimal design that combines the efficiency of experimental designs and the accuracy of nonlinear programming (NLP) has been developed, called Search-and-Zoom. Two case studies from the RF and communications industry, a high-frequency micro-strip band-pass filter (BPF) and a rectangular, directional patch antenna, were used to show that sensitivity optimization could be effectively performed in this industry and to compare the computational efficiency of traditional NLP methods (using fmincon solver in MATLAB R2013a) and they hybrid method Search-and-Zoom. The sensitivity of the BPF's S11 response was reduced from 0.06666 at the (non-robust) nominal optimum to 0.01862 at the sensitivity optimum. Feasibility in the design was improved by reducing the likelihood of violating constraints from 20% to nearly 0%, assuming RSS (i.e., normally-distributed) input tolerances and from 40% to nearly 0%, assuming WC (i.e., uniformly-distributed) input tolerances. The sensitivity of the patch antenna's S11 function was also improved from 0.02068 at the nominal optimum to 0.0116 at the sensitivity optimum. Feasibility at the sensitivity optimum was estimated to be 100%, and thus did not need to be improved. In both cases, the computation effort to reach the sensitivity optima, as well as the sensitivity optima with RSS and WC feasibility robustness, was reduced by more than 80% (average) by using Search-and-Zoom, compared to the NLP solver. NLP Monte Carlo feasibility robustness sensitivity optimization sensitivity robustness Taguchi method tolerance orthogonal array Search-and-Zoom Mechanical Engineering
126	TOWARDS EFFICIENT AND ROBUST DEEP LEARNING :HANDLING DATA NON-IDEALITY AND LEVERAGINGIN-MEMORY COMPUTING Sangamesh D Kodge (19958580) 05 November 2024 (has links) <p dir="ltr">Deep learning has achieved remarkable success across various domains, largely relyingon assumptions of ideal data conditions—such as balanced distributions, accurate labeling,and sufficient computational resources—that rarely hold in real-world applications. Thisthesis addresses the significant challenges posed by data non-idealities, including privacyconcerns, label noise, non-IID (Independent and Identically Distributed) data, and adversarial threats, which can compromise model performance and security. Additionally, weexplore the computational limitations inherent in traditional architectures by introducingin-memory computing techniques to mitigate the memory bottleneck in deep neural networkimplementations.We propose five novel contributions to tackle these challenges and enhance the efficiencyand robustness of deep learning models. First, we introduce a gradient-free machine unlearning algorithm to ensure data privacy by effectively forgetting specific classes withoutretraining. Second, we propose a corrective machine unlearning technique, SAP, that improves robustness against label noise using Scaled Activation Projections. Third, we presentthe Neighborhood Gradient Mean (NGM) method, a decentralized learning approach thatoptimizes performance on non-IID data with minimal computational overhead. Fourth, wedevelop TREND, an ensemble design strategy that leverages transferability metrics to enhance adversarial robustness. Finally, we explore an in-memory computing solution, IMAC,that enables energy-efficient and low-latency multiplication and accumulation operationsdirectly within 6T SRAM arrays.These contributions collectively advance the state-of-the-art in handling data non-idealitiesand computational efficiency in deep learning, providing robust, scalable, and privacypreserving solutions suitable for real-world deployment across diverse environments.</p> Deep learning Data Non-Idealities Machine Unlearning Label Noise Robustness Adversarial Robustness In-Memory Compute
127	Robustness against large-scale failures in communications networks Segovia Silvero, Juan 15 December 2011 (has links) This thesis studies robustness against large-scale failures in communications networks. If failures are isolated, they usually go unnoticed by users thanks to recovery mechanisms. However, such mechanisms are not effective against large-scale multiple failures. Large-scale failures may cause huge economic loss. A key requirement towards devising mechanisms to lessen their impact is the ability to evaluate network robustness. This thesis focuses on multilayer networks featuring separated control and data planes. The majority of the existing measures of robustness are unable to capture the true service degradation in such a setting, because they rely on purely topological features. One of the major contributions of this thesis is a new measure of functional robustness. The failure dynamics is modeled from the perspective of epidemic spreading, for which a new epidemic model is proposed. Another contribution is a taxonomy of multiple, large-scale failures, adapted to the needs and usage of the field of networking. / Esta tesis estudia la robustez contra fallos de gran escala en redes de comunicaciones. Si los fallos son aislados, usualmente pasan inadvertidos para los usuarios gracias al uso de mecanismos de recuperación. Sin embargo, tales mecanismos no son efectivos contra fallos múltiples de gran escala. Los fallos de gran escala pueden causar grandes pérdidas económicas. Un requisito clave a la hora de diseñar mecanismos efectivos para reducir los efectos negativos es la habilidad de evaluar la robustez de la red. Esta tesis se centra en redes multinivel que poseen planos de control y de datos separados. La mayoría de las medidas de robustez existentes no capturan correctamente la verdadera degradación de los servicios en tales escenarios porque basan la evaluación en propiedades puramente topológicas. Una de las contribuciones de esta tesis es una nueva métrica de robustez funcional. La dinámica de los fallos se modela desde la perspectiva de la propagación de epidemias, para lo cual un nuevo modelo epidémico es propuesto. Otra contribución es una taxonomía de los fallos múltiples de gran escala, adaptado a las necesidades y uso del campo de las redes de comunicaciones. Robustness Robustez Robustness Resilience Resistència Resistencia Complex networks Xarxes complexes Redes complejas GMPLS Network recovery Recuperació de la xarxa Recuperación de la red Epidemic models Models epidèmics Modelos epidémicos 68
128	Eco-inspired Robust Control Design for Linear Time-Invariant systems with Real Parameter Uncertainty Chandavarkar, Rohan Vivek 03 September 2013 (has links) No description available. Aerospace Engineering Applied Mathematics Automotive Engineering Ecology Engineering Mechanical Engineering Mathematics Education ecology controls robust control engineering norm minimization linear algebra closed-loop system robustness qualitative and quantitative robustness
129	Robust design : Accounting for uncertainties in engineering Lönn, David January 2008 (has links) This thesis concerns optimization of structures considering various uncertainties. The overall objective is to find methods to create solutions that are optimal both in the sense of handling the typical load case and minimising the variability of the response, i.e. robust optimal designs. Traditionally optimized structures may show a tendency of being sensitive to small perturbations in the design or loading conditions, which of course are inevitable. To create robust designs, it is necessary to account for all conceivable variations (or at least the influencing ones) in the design process. The thesis is divided in two parts. The first part serves as a theoretical background to the second part, the two appended articles. This first part includes the concept of robust design, basic statistics, optimization theory and meta modelling. The first appended paper is an application of existing methods on a large industrial example problem. A sensitivity analysis is performed on a Scania truck cab subjected to impact loading in order to identify the most influencing variables on the crash responses. The second paper presents a new method that may be used in robust optimizations, that is, optimizations that account for variations and uncertainties. The method is demonstrated on both an analytical example and a Finite Element example of an aluminium extrusion subjected to axial crushing. / ROBDES Robust optimisation robust design robustness meta model sensitivity analysis Solid mechanics Fastkroppsmekanik
130	Robust estimation of the number of components for mixtures of linear regression Meng, Li January 1900 (has links) Master of Science / Department of Statistics / Weixin Yao / In this report, we investigate a robust estimation of the number of components in the mixture of regression models using trimmed information criterion. Compared to the traditional information criterion, the trimmed criterion is robust and not sensitive to outliers. The superiority of the trimmed methods in comparison with the traditional information criterion methods is illustrated through a simulation study. A real data application is also used to illustrate the effectiveness of the trimmed model selection methods. Mixture of linear regression models Model selection Robustness Trimmed likelihood estimator Statistics (0463)

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