Global ETD Search

611	Commande Nonlinéaire et Navigation des Véhicules Marins Sous-actionnés Ghommam, Jawhar 23 February 2008 (has links) (PDF) Dans cette thèse nous adressons le problème de commande des véhicules marins sous-actionnés. La motivation clé de ce sujet de recherche vient du fait qui les systèmes sous-actionnés posent des défis aussi bien théoriques et pratiques pour l'ingénieur automaticien. En fait, ces systèmes ne peuvent pas être stabilisés par des commandes lisses invariantes dans le temps. De plus, en dépit du nombre de méthodes disponibles pour la commande des systèmes mécaniques sous-actionnés, peu ont adressé des points pratiques importantes tels que l'inclusion explicite de dynamique dans la formulation de problème de commande et le besoin de faire face aux perturbations environnementales résultants des courants des vagues, par exemple. Cette thèse attaque certains de ces problèmes, formule et résout les problèmes de commande de positionnement dynamique, de la poursuite de trajectoire et du suivie de chemin des véhicules marins sous-actionnés. La première partie de cette thèse (Chapitres 3 et 4) constituent les éléments théoriques fondamentaux pour l'analyse du modèle et la synthèse des commandes pour les véhicules marins sous-actionnés. Particulièrement, nous montrons au chapitre 3 que le modèle de véhicule marin sous-actionné ne satisfait pas la condition de nécessaire Brockett pour la stabilisation des systèmes nonlinéaires par actions continues et invariantes dans le temps. Cependant, Il sera montré qu'il est possible d'atteindre la stabilisation en utilisant une commande discontinue ou variable dans le temps. Le chapitre 4 consiste à appliquer des résultats récents sur les systèmes cascades nonlinéaires pour résoudre le problème de déterminer des lois de commande qui stabilisent à l'origine la position et l'orientation d vaisseau sous-actionnés. Deux transformations sont introduites pour représenter le système dans une forme de cascade. Par quelques propriétés du modèle, nous montrons en premier que la stabilisation globale et asymptotique du système se réduit a stabiliser une forme en chaîne de troisième ordre. Une approche discontinue par backstepping est ensuite employée pour la stabilisation du système de forme en chaîne via un retour d'état partiel. Nous montrons que la loi de commande proposée stabilise exponentiellement le modèle réduit dans un ensemble défini, assurant le stabilisation asymptotique, local et uniforme du modèle de vaisseau marin sous-actionné. Pour assurer la stabilité uniforme globale cependant, un backstepping et le temps combinés variant l'approche de contrôle est donc employée. Prochain, nous exploitons la structure de cascade pour construire une trajectoire convenable produite par les équations dynamiques d'un véritable sous-actionnés bateau. Nous montrons ensuite que la stabilisation globale peut être assurée par une par une combinaison de la commande par backstepping et une commande variable dans le temps. Ensuite nous abordons le problème de poursuite de trajectoire. Dans lequel la trajectoire de référence est générée par un navire sous-actionné virtuel. Nous montrons ensuite qu'il existe une commande qui force exponentiellement le navire à la poursuite de la trajectoire partant d'une condition initiale quelconque. Utilisant une approche des Systems cascades, nous montrons que la dynamique de l'erreur de poursuite peut être vue comme une cascade d'un système linéaire et d'un système en chaine de deuxième ordre. La deuxième partie de cette thèse (Chapitre 5, 6 et 7) est consacrée au problème de la manoeuvre du vaisseau sous-actionné le long d'un chemin désiré avec une dynamique prescrite. La conception de la loi de commande est abordée par deux approches. La première vient d'une observation qu'il est plausible en pratique de manoeuvrer le véhicule tel qu'il soit sur son chemin de référence est que sa vitesse totale soit tangente au chemin. Il sera aussi supposé que le véhicule voyage le long du chemin avec une vitesse directe constante. La seconde approche ne conditionne pas la vitesse directe pour être constante. Dans le Chapitre 5, nous exploitons l'approche abordée pour le suivi de chemin pour résoudre le problème de coordinations d'un groupe de véhicules marins. Il est objet de manoeuvrer le mouvement de chaque véhicule tel que le mouvement du groupe est prescrit par un comportement désiré. Ainsi, le mouvement indépendant est coordonné comme une formation selon le comportement désirée. Dans ce chapitre nous considérerons le problème de formation ou plusieurs véhicules sont synchronisés de manière qu'ils soient commandés comme une formation de structure virtuelle. Le chapitre 6, est dévouée au problème général de la commande par retour de sortie pour la stabilisation globale des véhicules marins sous-actionnés. Une application de tel observateur est ensuite faite au problème de la poursuite de trajectoire d'un vaisseau sous-actionné. Underactuated Systems Surface Ship Controllability Stabilizability Trajectory Tracking Path Following Formation Control Nonlinear and Adaptive Control Output Feedback Controller Cascade Systems Lyapunov's Direct Method Backstepping Stability Analysis
612	Control of Dynamically Assisted Phase-shifting Transformers Johansson, Nicklas January 2008 (has links) <p>In this thesis, controllers for power oscillation damping, transient stability improvement and power flow control by means of a Controlled Series Compensator (CSC) and and a Dynamic Power Flow Controller (DPFC) are proposed. These devices belong to the group of power system components referred to as Flexible AC Transmission System (FACTS) devices. The developed controllers use only quantities measured locally at the FACTS device as inputs, thereby avoiding the risk of interrupted communications associated with the use of remote signals for control.</p><p>For power systems with one dominating, poorly damped inter-area power oscillation mode, it is shown that a simple generic system model can be used as a basis for damping- and power flow control design. The model for control of CSC includes two synchronous machine models representing the two grid areas participating in the oscillation and three reactance variables, representing the interconnecting transmission lines and the FACTS device. The model for control of DPFC is of the same type but it also includes the phase shift of the internal phase-shifting transformer of the DPFC.</p><p>The key parameters of the generic grid models are adaptively set during the controller operation by estimation from the step responses in the FACTS line power to the changes in the line series reactance inserted by the FACTS device. The power oscillation damping controller is based on a time-discrete, non-linear approach which aims to damp the power oscillations and set the desired power flow on the FACTS line by means of two step changes in the line reactance separated in time by half an oscillation cycle.</p><p>A verification of the proposed controllers was done by means of digital simulations using power system models of different complexities. The CSC and DPFC controllers were shown to significantly improve the small-signal- and transient stability in one four-machine system of a type commonly used to study inter-area oscillations. The CSC controller was also tested for 18 different contingencies in a 23-machine system, resulting in an improvement in both the system transient stability and the damping of the critical oscillation mode. </p> Thyristor Controlled Series Capacitor Thyristor Switched Series Capacitor Controlled Series Compensator Dynamic Power Flow Controller Phase-Shifting Transformer Power Oscillation Damping Transient Stability Power Flow Control Adaptive Control Electric power engineering Elkraftteknik
613	Modenstruktur und adaptive Regelung der Strahl-Kanten-Strömung / mode structure and adaptive control of the jet-edge-system Ickler, Arno 30 October 2004 (has links) No description available. 530 Physik Mathematics and Computer Science Strömungssteuerung adaptive Regelung globale Instabilität flow control adaptive control global instability 33.14 50.23
614	Contribution à la Synthèse de Lois de Commande pour le Guidage des Avions de Transport Bouadi, Hakim 22 January 2013 (has links) (PDF) Compte tenu de la forte croissance du trafic aérien aussi bien dans les pays émergents que dans les pays développés soutenue durant ces dernières décennies, la satisfaction des exigences relatives à la sécurité et à l'environnement nécessite le développement de nouveaux systèmes de guidage. L'objectif principal de cette thèse est de contribuer à la synthèse d'une nouvelle génération de lois de guidage pour les avions de transport présentant de meilleures performances en terme de suivi de trajectoire. Il s'agit en particulier d'évaluer la faisabilité et les performances d'un système de guidage utilisant un référentiel spatial. Avant de présenter les principales approches utilisées pour le développement de lois de commande pour les systèmes de pilotage et de guidage automatiques et la génération de directives de guidage par le système de gestion du vol, la dynamique du vol d'un avion de transport est modélisée en prenant en compte d'une manière explicite les composantes du vent. Ensuite, l'intérêt de l'application de la commande adaptative dans le domaine de la conduite automatique du vol est discuté et une loi de commande adaptative pour le suivi de pente est proposée. Les principales techniques de commande non linéaires reconnues d'intérêt pour le suivi de trajectoire sont alors analysées. Finalement, une loi de commande référencée dans l'espace pour le guidage vertical d'un avion de transport est développée et est comparée avec l'approche temporelle classique. L'objectif est de réduire les erreurs de poursuite et mieux répondre aux contraintes de temps de passage en certains points de l'espace ainsi qu'à une possible contrainte de temps d'arrivée. commande automatique du vol suivi de trajectoire commande adaptative commande non linéaire spatiale flight control trajectory tracking adaptive control space-indexed nonlinear control
615	Adaptive and Nonlinear Control of a Voltage Source Converter Milasi, Rasoul M. Unknown Date No description available. Voltage Source Converter (VSC) Static Synchronous Compensator (STATCOM) Active Power Filter (APF) Adaptive Control Nonlinear Flatness Control Vector Control Bilinear Modeling Linear Modeling Simulation Experimental Setup dSPACE MATLAB Power Factor Correction (PFC) Harmonic Elemination DC Voltage Regulation Rectifier
616	Stochastically optimized monocular vision-based navigation and guidance Watanabe, Yoko 07 December 2007 (has links) The objective of this thesis is to design a relative navigation and guidance system for unmanned aerial vehicles (UAVs) for vision-based control applications. The vision-based navigation, guidance and control has been one of the most focused on research topics for the automation of UAVs. This is because in nature, birds and insects use vision as the exclusive sensor for object detection and navigation. In particular, this thesis studies the monocular vision-based navigation and guidance. Since 2-D vision-based measurements are nonlinear with respect to the 3-D relative states, an extended Kalman filter (EKF) is applied in the navigation system design. The EKF-based navigation system is integrated with a real-time image processing algorithm and is tested in simulations and flight tests. The first closed-loop vision-based formation flight has been achieved. In addition, vision-based 3-D terrain recovery was performed in simulations. A vision-based obstacle avoidance problem is specially addressed in this thesis. A navigation and guidance system is designed for a UAV to achieve a mission of waypoint tracking while avoiding unforeseen stationary obstacles by using vision information. A 3-D collision criterion is established by using a collision-cone approach. A minimum-effort guidance (MEG) law is applied for a guidance design, and it is shown that the control effort can be reduced by using the MEG-based guidance instead of a conventional guidance law. The system is evaluated in a 6 DoF flight simulation and also in a flight test. For monocular vision-based control problems, vision-based estimation performance highly depends on the relative motion of the vehicle with respect to the target. Therefore, this thesis aims to derive an optimal guidance law to achieve a given mission under the condition of using the EKF-based relative navigation. Stochastic optimization is formulated to minimize the expected cost including the guidance error and the control effort. A suboptimal guidance law is derived based on an idea of the one-step-ahead (OSA) optimization. Simulation results show that the suggested guidance law significantly improves the guidance performance. Furthermore, the OSA optimization is generalized as the n-step-ahead optimization for an arbitrary number of n, and their optimality and computational cost are investigated. Optimal guidance Nonlinear estimation UAV Vision-based control Drone aircraft Robot vision Computer vision Guidance systems (Flight) Aids to air navigation Adaptive control systems Real-time data processing Real-time control
617	Aspects on Dynamic Power Flow Controllers and Related Devices for Increased Flexibility in Electric Power Systems Johansson, Nicklas January 2011 (has links) This thesis studies different aspects of Flexible AC Transmission System (FACTS) devices which are used to improve the power transfer capability and increase the controllability in electric power systems. In the thesis, different aspects on the usage and control of Dynamic Power Flow Controllers (DPFC) and related FACTS devices are studied. The DPFC is a combination of a Phase Shifting Transformer (PST) and a Thyristor Switched Series Capacitor (TSSC)/Thyristor Switched Series Reactor (TSSR). The thesis proposes and studies a new method, the Ideal Phase-Shifter (IPS) method, for selection and rating of Power Flow Controllers (PFC) in a power grid. The IPS method, which is based on steady-state calculations, is proposed as a first step in the design process for a PFC. The method uses the Power controller plane, introduced by Brochu et al in 1999. The IPS method extends the usage of decoupling methods in the Power controller plane to a power system of arbitrary size. The IPS method was in the thesis used to compare the ratings of different PFC:s required to improve the power transfer capability in two test systems. The studied devices were here the PST, the TSSC/TSSR and the DPFC. The thesis treats control of ideal Controlled Series Capacitors (CSC), TCSC, TSSC/TSSR, and DPFC. The goals of the FACTS controllers which are developed are Power Oscillation Damping (POD), fast power flow control, and transient stability improvement in the power system. New adaptive control strategies for POD and power flow control are proposed and studied in different models of power systems by time-domain simulations. A strategy for transient stability improvement is also proposed and studied. Additionally, different methods for study of Subsynchronous Resonance (SSR), which is associated with series compensation in power systems, are investigated. Here, four of the most common methods for frequency scanning to determine the electrical damping of subsynchronous oscillations in a power grid are studied. The study reveals significant differences of the electrical damping estimates of the studied standard methods when applied to a four-machine test system. / QC 20110819 Adaptive Control Controlled Series Compensator Dynamic Power Flow Controller Frequency Scanning Phase-Shifting Transformer Power Controller Plane Power Flow Control Power Oscillation Damping Subsynchronous Resonance Thyristor Controlled Series Compensator Thyristor Switched Series Compensator Transient Stability Electrical engineering Elektroteknik
618	Μοντελοποίηση και έλεγχος μίκρο/νάνο ρομποτικών συστημάτων Τσουκαλάς, Αθανάσιος 21 December 2012 (has links) Η παρούσα διδακτορική διατριβή έχει ως κύριο αντικείμενο μελέτης την μοντελοποίηση και έλεγχο ενός μικρορομποτικού βραχίονα αναλυόμενου σε σφαιρικά πεπερασμένα στοιχεία σε περιβάλλον με εξωτερικές δυνάμεις Van Der Waals και συνυπολογίζοντας την τριβή. Τα κύρια σημεία είναι η εισαγωγή των εξωτερικών δυνάμεων στο μοντέλο του μικρορομπότ, η δημιουργία προσαρμοστικού ελέγχου για την επίτευξη ακολουθίας τροχιάς με αναγνώριση και ακύρωση των ισχυρών μεταβαλλόμενων εξωτερικών δυνάμεων, η αναγνώριση της θέσης και η αποφυγή εμποδίων σε άγνωστο περιβάλλον κλίμακας μικρομέτρων και ο καθορισμός τροχιάς για προσέγγιση σημείων στον χώρο εργασίας του μικρορομπότ. Προτείνεται επίσης ένα σύστημα επενέργησης σε διάταξη τένοντα με νανοκαλώδια και γίνεται μελέτη της αντοχής του σε σχέση με τις μέγιστες δυνάμεις-ροπές που παρουσιάζονται κατά τον έλεγχο. Για την αναγνώριση των εξωτερικών δυνάμεων δοκιμάζονται διαφορετικά είδη εκτιμητών και εξετάζεται η απόδοσή τους στο συνολικό σύστημα. / The present PhD thesis has a key object the modeling and control of a micro robotic manipulator, represented by spherical particles in an environment with external Van Der Waals forces and taking friction into account. The main points are a) the insertion of the external forces in the micro robot model, b) the adaptive control used in order to follow a desired trajectory, with identification and cancellation of the external forces, the position identification and avoidance of obstacles in an unstructured micrometer scale environment and the trajectory planning towards a target point in the task space of the microrobot. Also a tendon like actuation system is proposed, using nanowires and its mechanical properties are studied in order to determine the viability of its use in relation to the required torques during the control process. For the external force identification scheme, various types of estimators are proposed and their efficiency in the system is studied. Νανοκαλώδια PD ελεγκτές Αποφυγή εμποδίων Μικροτριβή 629.893 3 Piezoelectric actuators MEMS Nanowires Adaptive control PD controllers Obstacle avoidance Obstacle identification Micro scale friction
619	Desenvolvimento de uma fonte de potência CA para geração de formas de onda de até 2kHz / Development of an ac power source for generation of waveforms up to 2kHz Tambara, Rodrigo Varella 30 July 2010 (has links) Conselho Nacional de Desenvolvimento Científico e Tecnológico / This work presents the development of an alternating current power source with a single-phase full bridge voltage inverter, based on electronic switches. The source is designed to drive electromechanical and electric plants. The prototype is designed with 1kVA nominal power and is able to generate sinusoidal waveforms up to 2kHz. The inverter operates at the switching frequency of 50kHz. A robust model reference adaptive controller is designed and implemented to adjust the output voltage of the source. Additionally, the elements of the source and the system for measuring the electrical parameters are presented. A digital signal controller is used to control and generate signals with pulse width modulation. The discretization of the control system is performed using the delta operator. Finally, experimental results and analysis of the closed loop system are presented. Based on these results, the experimental performance of the designed source and the proposed control system are examined. / Este trabalho apresenta o desenvolvimento de uma fonte de potência de corrente alternada com um inversor de tensão em ponte completa monofásico, composto por interruptores eletrônicos. Esta fonte é concebida para o acionamento de plantas elétricas e eletromecânicas. O protótipo projetado tem uma potência nominal de 1kVA e é capaz de gerar formas de onda senoidais de até 2kHz. O inversor opera em uma frequência de comutação de 50kHz. Um controlador adaptativo robusto por modelo de referência é projetado e implementado para ajuste da tensão de saída da fonte. Adicionalmente, são apresentados os elementos da fonte e o sistema de medição das variáveis elétricas. Um processador digital de sinais é utilizado para controle e geração de sinais com modulação por largura de pulso. A discretização do sistema de controle é realizada por meio do operador delta. Por fim, são apresentados resultados experimentais e análise do sistema em malha fechada. A partir destes resultados, averiguou-se o desempenho experimental da fonte projetada e do sistema de controle proposto. Eletrônica de potência Controle adaptativo robusto Operador delta Aquisição de dados Modulação por largura de pulso Power electronics Robust adaptive control Delta operator Data acquisition Pulse width modulation CNPQ::ENGENHARIAS::ENGENHARIA ELETRICA
620	Gráficos de controle adaptativos para monitoramento de perfis / Gráficos de controle adaptativos para monitoramento de perfis / Adaptive control charts for monitoring profiles / Adaptive control charts for monitoring profiles Viviany Leão Fernandes 23 May 2014 (has links) Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Processos de produção precisam ser avaliados continuamente para que funcionem de modo mais eficaz e eficiente possível. Um conjunto de ferramentas utilizado para tal finalidade é denominado controle estatístico de processos (CEP). Através de ferramentas do CEP, o monitoramento pode ser realizado periodicamente. A ferramenta mais importante do CEP é o gráfico de controle. Nesta tese, foca-se no monitoramento de uma variável resposta, por meio dos parâmetros ou coeficientes de um modelo de regressão linear simples. Propõe-se gráficos de controle χ2 adaptativos para o monitoramento dos coeficientes do modelo de regressão linear simples. Mais especificamente, são desenvolvidos sete gráficos de controle χ2 adaptativos para o monitoramento de perfis lineares, a saber: gráfico com tamanho de amostra variável; intervalo de amostragem variável; limites de controle e de advertência variáveis; tamanho de amostra e intervalo de amostragem variáveis; tamanho de amostra e limites variáveis; intervalo de amostragem e limites variáveis e por fim, com todos os parâmetros de projeto variáveis. Medidas de desempenho dos gráficos propostos foram obtidas através de propriedades de cadeia de Markov, tanto para a situação zero-state como para a steady-state, verificando-se uma diminuição do tempo médio até um sinal no caso de desvios pequenos a moderados nos coeficientes do modelo de regressão do processo de produção. Os gráficos propostos foram aplicados a um exemplo de um processo de fabricação de semicondutores. Além disso, uma análise de sensibilidade dos mesmos é feita em função de desvios de diferentes magnitudes nos parâmetros do processo, a saber, no intercepto e na inclinação, comparando-se o desempenho entre os gráficos desenvolvidos e também com o gráfico χ2 com parâmetros fixos. Os gráficos propostos nesta tese são adequados para vários tipos de aplicações. Neste trabalho também foi considerado características de qualidade as quais são representadas por um modelo de regressão não-linear. Para o modelo de regressão não-linear considerado, a proposta é utilizar um método que divide o perfil não-linear em partes lineares, mais especificamente, um algoritmo para este fim, proposto na literatura, foi utilizado. Desta forma, foi possível validar a técnica proposta, mostrando que a mesma é robusta no sentido que permite tipos diferentes de perfis não-lineares. Aproxima-se, portanto um perfil não-linear por perfis lineares por partes, o que proporciona o monitoramento de cada perfil linear por gráficos de controle, como os gráficos de controle desenvolvidos nesta tese. Ademais apresenta-se a metodologia de decompor um perfil não-linear em partes lineares de forma detalhada e completa, abrindo espaço para ampla utilização. / Production processes need to be continually evaluated so that they are able to produce in the most effective and efficient way. Statistical process control (SPC) consists of a set of tools used for this purpose. The monitoring can be periodically performed through the SPC tools. The most important tool of SPC is the control chart. In this thesis, we focus on the monitoring of a response variable through the parameters or coefficients of a linear regression model. It is proposed adaptive χ2 control charts for monitoring the coefficients of linear regression models. More specifically, seven adaptive χ2 control charts are proposed for monitoring a simple linear regression model, being distinguished by the following properties: variable sample size; variable sampling interval; variable warning and control limits; variable sample size and sampling interval; variable sample size and limits; variable sampling interval and limits and finally, all design parameters varying. Performance measures of these charts were obtained through properties of Markov chain, for both the zero-state and the steady-state situation. It was found that the average time until a signal in the case of small to moderate shifts in the coefficients of the regression model decreased. The proposed charts were applied to an example of semiconductors manufacturing process. Moreover, a sensitivity analysis of the proposed charts is performed for different shifts magnitudes in the process parameters, namely the intercept and the slope, comparing the performance between the developed charts and also with the fixed parameter χ2 chart. The proposed charts in this thesis are suitable for several applications. In this work, it was also considered quality characteristics represented by nonlinear regression models. To the considered nonlinear regression model, the proposal is to use a method that divides the nonlinear profile in linear parts. More specifically, an algorithm for this purpose, proposed in the literature, was utilized. It approximates nonlinear profile by a set of linear profiles. It was possible to validate this technique, showing that it is robust in the sense that it allows different types of nonlinear profiles to be considered. In this way, techniques such as control charts developed here can be used to monitor each linear part. Furthermore, we present the methodology to decompose a nonlinear profile in linear parts in a detailed and complete way, allowing its widespread use. Markov, Processos de Análise de regressão Gráficos de controle adaptativos Perfis lineares Perfis não-lineares Statistical Process Control Adaptive control charts Linear profiles Nonlinear profiles Markov chain PROBABILIDADE E ESTATISTICA APLICADAS

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