Global ETD Search

261	Aplicações de controle vetorial e análise da robustez em motores de indução trifásicos com atraso no controle / Garcia, Saulo Crnkowise. January 2018 (has links) Orientador: Falcondes José Mendes de Seixas / Resumo: O foco principal deste trabalho é a investigação de métodos de controle capazes de rejeitar perturbações, incertezas e influências degenerativas do atraso no problema referente ao controle vetorial por campo orientado do Motor de Indução Trifásico (MIT), através de um modelo matemático não linear deste. Dá-se ênfase à utilização do método de controle Proporcional-Integral em conjunto com o Controle com Estrutura Variável e Modos Deslizantes, sendo que este tem como principal característica a rejeição de perturbações e incertezas. São realizadas análises da robustez da estabilidade e também das influências que as incertezas e atrasos exercem sobre o comportamento dinâmico deste sistema. Para corroborar com as análises, são feitas simulações utilizando exemplos numéricos num sistema linear de ordem dois e aplicações no MIT através de um modelo matemático não linear. / Abstract: This work deals the investigation of control methods capable of rejecting perturbations, uncertainties and degenerative influence of input time-delay in the Three-phase Induction Motor (TIM) vector control problem, through a nonlinear mathematical model. The main focus is the use of the Proportional-Integral control method in conjunction with the Variable Structure Control with Sliding Mode, which has as main characteristic the rejection of perturbations and uncertainties. Analyzes are performed on the stability robustness and also on the influence that the uncertainties and input time-delay on the dynamic behavior of this system. In order to corroborate with the analyzes simulations are made using numerical examples of two-order linear system and applications in a non-linear mathematical model of a Three-phase Induction Motor. / Doutor Motor de indução trifásico Atraso no sinal de controle Controladores PI Condições de estabilidade de Lyapunov Three-phase induction motor Input time-delay PI controllers Lyapunov stability conditions
262	Commande distribuée et synchronisation de robots industriels coopératifs / Distributed control and synchronization of cooperative robot manipulators Bouteraa, Yassine 21 February 2012 (has links) Cette thèse développe les lois de coordination de systèmes de Lagrange. Elle propose en premier lieu une stratégie complètement décentralisée qui se base sur la technique de cross-coupling pour la commande d'un groupe de robots, appelé réseau, qui synchronisent leurs mouvements en suivant une trajectoire désirée. Cette stratégie est étendue pour faire face à l'incertitude paramétrique des robots ainsi qu’aux retards fréquemment rencontrés dans les applications pratiques de réseaux de communication. Une deuxième architecture basée sur la théorie des graphes est proposée pour les réseaux à leader. L'approche développée est considérée hybride. Une extension adaptative à base de réseaux de neurones est développée pour traiter les cas d'incertitude paramétrique. La stratégie conçue prend en considération les délais dans la réception des données. En se basant sur la notion de système en chaîne, la théorie des graphes, le concept de la passivité et la technique du backstepping, une nouvelle méthodologie de la conception de contrôleur de synchronisation pour une classe de systèmes sous-actionnés est développée. Afin d’avoir la possibilité d’implémenter ces stratégies de contrôle, on a développé une plate-forme d'expérimentation pour la robotique industrielle coopérative. / This thesis investigates the issue of designing decentralized control laws to cooperatively control a team of robot manipulators. The purpose is to synchronize their movements while tracking common desired trajectory. Based on a combination of Lyapunov direct method and cross-coupling technique, To account for unmatched uncertainties, the proposed decentralized control laws are extended to an adaptive synchronization tracking controllers. Moreover, due to communication imperfection, time delay communication problems are considered in the performance analysis of the controllers. Another relevant problem for distributed synchronized systems is the leader-follower control problem. In this strategy, a decentralized control laws based on the backstepping scheme is proposed to deal with a leader-follower multiple robots structure. Based on graph theory, the coordination strategy combines the leader follower control with the decentralized control. The thesis, also considers the cooperative movement of under- actuated manipulators tracking reference trajectories defined by the user. The control problem for a network of class of under-actuated systems is considered. The approach we adopted in this thesis consists in decomposing the under-actuated manipulators into a cascade of passive subsystems that synchronize with he other neighbors subsystems. The resulting synchronized control law is basically a combination of non-regular backstepping procedure aided with some concepts from graph theory. The proposed controllers are validated numerically, assuming that the underlying communication graph is strongly connected. To implement these control strategies, we developed an experimental platform made of three robot manipulators. Coopération de robots Synchronisation Techniques de coordination Système sous actionné Commande distribuée Commande à retard Commande non linéaire Multi-robot Cooperative synchronization Coordination Lagrangian system Under-actuated system Time-delay systems Distributed control Non-linear control
263	Définition et réglage de correcteurs robustes d'ordre fractionnaire / Definition and tuning of robust fractional order controllers Tenoutit, Mammar 01 July 2013 (has links) Les applications du calcul fractionnaire en automatique se sont considérablement développées ces dernières années, surtout en commande robuste. Ce mémoire est une contribution à la commande robuste des systèmes d'ordre entier à l'aide d'un correcteur PID d'ordre fractionnaire.Le conventionnel régulateur PID, unanimement apprécié pour le contrôle des processus industriels, a été adapté au cas fractionnaire sous la forme PInDf grâce à l'introduction d'un modèle de référence d'ordre non entier, réputé pour sa robustesse vis-à-vis des variations du gain statique.Cette nouvelle structure a été étendue aux systèmes à retard sous la forme d'un Prédicteur de SMITH fractionnaire. Dans leur forme standard, ces correcteurs sont adaptés à la commande des systèmes du premier et du second ordre, avec ou sans retard pur.Pour des systèmes plus complexes, deux méthodologies de synthèse du correcteur ont été proposées, grâce à la méthode des moments et à l'approche retour de sortie.Pour les systèmes dont le modèle est obtenu à partir d'une identification, la boucle fermée doit en outre être robuste aux erreurs d'estimation. Un modèle pire-cas, déduit de la matrice de covariance de l'estimateur et des domaines d'incertitudes fréquentielles, a été proposé pour la synthèse du correcteur.Les différentes simulations numériques montrent l'efficacité de cette méthodologie pour l'obtention d'une boucle fermée robuste aux variations du gain statique et aux incertitudes d'identification. / The application of fractional calculus in automatic control have received much attention these last years, mainly in robust control. This PhD dissertation is a contribution to the control of integer order systems using a fractional order PID controller.The classical PID, well known for its applications to industrial plants, has been adapted to the fractional case as a PInDf controller, thanks to a fractional order reference model, characterized by its robustness to static gain variations.This new controller has been generalized to time delay systems as a fractional SMITH Predictor. In standard case, these controllers are adapted to first and second order systems, with or without a time delay. For more complex systems, two design methodologies have been proposed, based on the method of moments and on output feedback approach.For systems whose model is obtained by an identification procedure, the closed loop has to be robust to estimation errors. So, a worst-case model, derived from the covariance matrix of the estimator and the frequency uncertainty domains, has been proposed for the design of the controller.The different numerical simulations demonstrate that this methodology is able to provide robustness to static gain variations and to identification uncertainties. Calcul fractionnaire PID d'ordre fractionnaire Commande robuste Systèmes àretard Incertitudes d'identification Modèle pire-Cas Fractional calculus Fractional order PID Robust control Time delay systems Identification uncertainties Worst-Case model 629.8
264	Controle por modo deslizante para sistemas não-lineares com atraso. / Sliding mode control for nonlinear systems with time delay. Camila Lobo Coutinho 04 May 2012 (has links) Nesta Dissertação são propostos dois esquemas de controle para sistemas não-lineares com atraso. No primeiro, o objetivo é controlar uma classe de sistemas incertos multivariáveis, de grau relativo unitário, com perturbações não-lineares descasadas dependentes do estado, e com atraso incerto e variante no tempo em relação ao estado. No segundo, deseja-se controlar uma classe de sistemas monovariáveis, com parâmetros conhecidos, grau relativo arbitrário, atraso arbitrário conhecido e constante na saída. Admitindo-se que o atraso na entrada pode ser deslocado para a saída, então, o segundo esquema de controle pode ser aplicado a sistemas com atraso na entrada. Os controladores desenvolvidos são baseados no controle por modo deslizante e realimentação de saída, com função de modulação para a amplitude do sinal de controle. Além disso, observadores estimam as variáveis de estado não-medidas. Em ambos os esquemas de controle propostos, garante-se propriedades de estabilidade globais do sistema em malha fechada. Simulações ilustram a eficácia dos controladores desenvolvidos. / Two control schemes for nonlinear time-delay systems are proposed in this thesis. The purpose of the first scheme is to control a class of uncertain multivariable systems, with relative degree one, nonlinear unmatched state dependent disturbances, and uncertain time-varying state delay. The purpose of the second scheme is to control a class of single-input-single-output systems, with known parameters, arbitrary relative degree, with constant and known arbitrary output delay. Assuming that input delays can be transferred to the output, so the second scheme can be applied to systems with input time-delay. The developed controllers are based on sliding mode control and output feedback, with modulation function to the control signal amplitude. Furthermore, observers estimate unmeasured state variables. In both schemes, global stability properties of the closed loop system are guaranteed. Simulations illustrate the effectiveness of the proposed approaches. Controle por modo deslizante Sistemas não-lineares Sistemas com atraso Controle vetorial unitário Realimentação de saída Observadores de estado Estabilização global Time-delay systems Nonlinear systems Sliding mode control Unit vector control Output feedback State observers Global stabilization ENGENHARIAS
265	Design and implementation of linear robust networked control systems Mkondweni, Ncedo Sandiso January 2013 (has links) Thesis submitted in fulfilment of the requirements for the degree Doctor of Technology: Electrical Engineering in the Faculty of Engineering at the Cape Peninsula University of Technology, 2013 / Networked Control Systems is a control system where the plant and the controller exchange information via a shared communication network and the network is considered as part of the closed loop control system. Unfortunately the network introduces network induced random varying time delays and data packet loss amongst the communication network imperfections. The network delays are considered to be between the controller and the actuator and between the sensor and the controller. These network imperfections degrade the performance of the closed loop control system and result in closed loop system instability. The complexity of measuring the communication network imperfection in networked control systems makes it difficult for the control engineers to develop methods for design of controllers that can incorporate and compensate these imperfections in order to improve the performance of the networked control systems. In this thesis a co-simulation toolset called LabNS2 is developed to address the first problem of measuring the communication network imperfections by providing an ideal environment that can be used to investigate the influence of network time delays or packet loss. The software environment of the toolset is based on LabVIEWTM and Network Simulator Version 2 (NS2). A new robust predictive optimal controller design method is developed to address the problem of the destabilising effect of the network induced time delay between the controller and the actuator. The design approach is based on time shifting of the optimisation horizon and a state predictor. The design of the controller is based on a model of the plant with delay in the control vector equal to the delay between the controller and the actuator or to the sum of the delays between the controller and the actuator and between the sensor and the controller. The time shifting approach allows the design of the controller to be performed for a model without time delay. Then the control action is based on the future values of the state space vector estimates. The state predictor is developed to predict these future values of the state using the present and past values of the state estimates and control actions. This technique is made possible by the use of the plant model Transition Matrix. A Discrete Kalman Filter is modified to address the problem of the destabilising effect of the network induced time delay between the sensor and the controller. An additional state estimation vector is added to the filter estimate at every current moment of time. iv The developed methods are implemented for networked control of a dish antenna driven by two stepper motors. The outcomes of the thesis can be used for the education and fundamental research purposes, but the developed control strategies have significant sense towards the Square Kilometer Array projects and satellite systems industry. / National Research Foundation Control engineering system Control theory Robust control Automatic control Computer networks Computerized process control Delay lines Time delay systems Kalman filtering Radio interferonmeters Satellite dish antennas
266	Controle por modo deslizante para sistemas não-lineares com atraso. / Sliding mode control for nonlinear systems with time delay. Camila Lobo Coutinho 04 May 2012 (has links) Nesta Dissertação são propostos dois esquemas de controle para sistemas não-lineares com atraso. No primeiro, o objetivo é controlar uma classe de sistemas incertos multivariáveis, de grau relativo unitário, com perturbações não-lineares descasadas dependentes do estado, e com atraso incerto e variante no tempo em relação ao estado. No segundo, deseja-se controlar uma classe de sistemas monovariáveis, com parâmetros conhecidos, grau relativo arbitrário, atraso arbitrário conhecido e constante na saída. Admitindo-se que o atraso na entrada pode ser deslocado para a saída, então, o segundo esquema de controle pode ser aplicado a sistemas com atraso na entrada. Os controladores desenvolvidos são baseados no controle por modo deslizante e realimentação de saída, com função de modulação para a amplitude do sinal de controle. Além disso, observadores estimam as variáveis de estado não-medidas. Em ambos os esquemas de controle propostos, garante-se propriedades de estabilidade globais do sistema em malha fechada. Simulações ilustram a eficácia dos controladores desenvolvidos. / Two control schemes for nonlinear time-delay systems are proposed in this thesis. The purpose of the first scheme is to control a class of uncertain multivariable systems, with relative degree one, nonlinear unmatched state dependent disturbances, and uncertain time-varying state delay. The purpose of the second scheme is to control a class of single-input-single-output systems, with known parameters, arbitrary relative degree, with constant and known arbitrary output delay. Assuming that input delays can be transferred to the output, so the second scheme can be applied to systems with input time-delay. The developed controllers are based on sliding mode control and output feedback, with modulation function to the control signal amplitude. Furthermore, observers estimate unmeasured state variables. In both schemes, global stability properties of the closed loop system are guaranteed. Simulations illustrate the effectiveness of the proposed approaches. Controle por modo deslizante Sistemas não-lineares Sistemas com atraso Controle vetorial unitário Realimentação de saída Observadores de estado Estabilização global Time-delay systems Nonlinear systems Sliding mode control Unit vector control Output feedback State observers Global stabilization ENGENHARIAS
267	Efeitos do atraso sobre a estabilidade de sistemas mecânicos não lineares / Effects delay about system stability nonlinear mechanics Ferreira, Rosane Gonçalves 04 March 2016 (has links) Submitted by JÚLIO HEBER SILVA (julioheber@yahoo.com.br) on 2017-06-20T18:27:52Z No. of bitstreams: 2 Dissertação - Rosane Gonçalves Ferreira - 2016.pdf: 4272548 bytes, checksum: a5f44a1be60a4ace1d85167dc75c33c4 (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) / Approved for entry into archive by Cláudia Bueno (claudiamoura18@gmail.com) on 2017-07-07T19:47:39Z (GMT) No. of bitstreams: 2 Dissertação - Rosane Gonçalves Ferreira - 2016.pdf: 4272548 bytes, checksum: a5f44a1be60a4ace1d85167dc75c33c4 (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) / Made available in DSpace on 2017-07-07T19:47:39Z (GMT). No. of bitstreams: 2 Dissertação - Rosane Gonçalves Ferreira - 2016.pdf: 4272548 bytes, checksum: a5f44a1be60a4ace1d85167dc75c33c4 (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) Previous issue date: 2016-03-04 / Vibrations of mechanical systems have a wide field of research, where many work have been dedicated. Such importance is due to the fact that most human activities involve vibrations. It is worth noting that many device can suffer or produce vibrations, such as, machines, structures, motors, turbines. Vibratory systems, generally can produce complex behavior, thus the analysis of such dynamics behavior needs to use sophisticated mathematical tools. The mathematical model assigns important features of real processes with respect to linear and non-linear differential equations. In this work we are interested in the analysis of behavior of delayed mechanical systems. Time delayed can compromise the performance of controls even adding instability in the systems. On the other hand, write choose of delays can improve its performance. Systems with time delay, similar to ordinary systems, are molded by ordinary and/or partial differential equations, but, unlikely ordinary differential equations, delayed differential equations, also known as functional differential equations, are molded on Banach spaces with infinite dimension, which introduce serious difficulty in analysis of stability, since that, the spectra of solution semi-group associated with the linear part of the model can presents infinite eigenvalues. Thus, our contribution of the study of dynamics behavior of such systems will be in two directions. In the first one, we apply the perturbation method of multiple scales in themodel of differential equations, since that the system shows nonlinear vibrations. It is worth noting that the differential analysis used in the stage regarding differential equations in Banach spaces, which has infinite dimension, this approach differ substantially from standards approaches. Then we obtain numerical solutions for the amplitude at steady state using the Newton Raphson method and then we made a numerical analysis of the model of stability with delay and without delay to different parameters, using the Runge-Kuttamethod. / As vibrações possuem um campo extenso de estudos, ao quais trabalhos inteiros têm sido dedicados. Tamanha importância deve-se ao fato de que a maioria das atividades humanas envolve vibrações. Muitos sistemas construídos sofrem ou produzem vibração, tais como máquinas, estruturas, motores, turbinas e sistemas de controle. Umsistema vibratório geralmente apresenta comportamento complexo, assim a análise do comportamento dinâmicos envolve o uso de ferramentas matemáticas sofisticadas. O modelo matemático incorpora os aspectos importantes do processo real, em termos de equações diferenciais lineares ou não lineares. Neste trabalho nosso objetivo é analisar o comportamento de um modelo de sistemas mecânicos. Os tempos de atrasos quando presentes em controladores e atuadores podem ser motivo de ineficiência ou mesmo causar a instabilidade do sistema. Porém, o controle adequado desses atrasos pode melhorar o desempenho de sistemas mecânicos. Os sistemas com tempo de atraso, assim como os sistemas ordinários, são modelados por equações diferenciais ordinárias ou parciais, mas diferentemente das equações ordinárias, equações com tempo de atraso, também conhecidas como equações funcionais, são modeladas em espaços de dimensão infinita, o que dificulta enormemente a análise de estabilidade, uma vez que, o espectro do semigrupo solução associado à parte linear do modelo pode apresentar infinitos autovalores. Assim, nossa contribuição ao estudo do comportamento dinâmico de tais sistemas foi feito em duas partes. Na primeira, aplicamos o método de perturbação das múltiplas escalas no sistema de equações diferenciais do modelo, uma vez que o sistema apresenta vibrações não lineares. Nesta parte, é importante ressaltar que a análise diferencial usada foi em um espaço de dimensão infinita, também conhecido como espaço de Banach; esta análise difere substancialmente daquela usada no caso ordinário. Em seguida obtemos soluções numéricas para a amplitude em estado estacionário usando o método de Newton Raphson e depois fizemos uma análise numérica da estabilidade do modelo com atraso e sem atraso para diferentes parâmetros, usando o método de Runge- Kutta. Vibrações mecânicas Modelagem matemática Sistema de controle Métodos numéricos Mechanical vibration Differential equations with time delay Mathematical modeling Control system Perturbation method of multiple scales Numerical methods CIENCIAS EXATAS E DA TERRA::MATEMATICA
268	Contributions to the Theory of Time-Delay Systems : Stability and Stabilisation / Contributions à la Théorie des Systèmes à Retard : Stabilité et Commande De Brito Cardeliquio, Caetano 27 September 2019 (has links) Le but de cette thèse est de présenter de nouveaux résultats sur l'analyse et la synthèse de systèmes à retard. Dans la première partie, nous étendons l'utilisation du système invariant d'ordre fini, appelé "système de comparaison", à la conception d'un contrôleur qui dépend non seulement de la sortie à l'heure actuelle et du délai maximum, mais également d'un nombre arbitraire de valeurs entre celles-ci. Cette approche nous permet d'augmenter le délai maximal stable sans exiger d'informations supplémentaires. Les méthodes présentées ici concernent la conception de systèmes de contrôle avec des retards en utilisant des routines numériques classiques basées sur la théorie Hoo. La deuxième partie de ce travail traite d'une nouvelle approche pour développer une enveloppe englobant tous les pôles d'un système à retard. Grâce aux LMIs, nous sommes en mesure de déterminer les enveloppes pour les systèmes à retard du type retardé et du type neutre. Les enveloppes proposées sont non seulement plus étroites que celles de la littérature, mais, avec notre procédure, elles peuvent également être appliquées pour vérifier la stabilité du système et pour projeter contrôleurs de retour d'état qui répondent aux exigences de conception relatives à alpha-stabilité et sont robustes face aux incertitudes paramétriques. Les systèmes fractionnaires sont également discutés dans les deux chapitres mentionnés ci-dessus. La troisième et dernière partie étudie les systèmes stochastiques avec des retards. Nous discutons d'abord des systèmes à temps continu soumis à des sauts de Markov. Nous définissons la stabilité et obtenons des LMIs pour le contrôle par retour d'état de telle sorte que la relation entre les taux de transition entre les modes soit affine, ce qui permet donc de traiter le cas dans lequel les taux sont incertains. Nous discutons ensuite des systèmes positifs avec retards, tant pour le cas continu que pour le cas discret. Des systèmes équivalents sont obtenus et la stabilité dépendante du retard est abordée. De nombreux exemples sont illustrés tout au long de la thèse. / The aim of this dissertation is to present new results on analysis and control design of time-delay systems. On the first part, we extend the use of a finite order LTI system, called 'comparison system', to design a controller which depends not only on the output at the present time and maximum delay, but also on an arbitrary number of values between those. This approach allows us to increase the maximum stable delay without requiring any additional information. The methods presented here consider time-delay systems control design with classical numeric routines based on Hoo theory. The second part of this work deals with a new approach to develop an envelope that engulfs all poles of a time-delay system. Through LMIs, we are able to determine envelopes for retarded and neutral time-delay systems. The envelopes proposed are not only tighter than the ones in the literature but, with our procedure, they can also be applied to verify the stability of the system and design state-feedback controllers which cope with design requirements regarding alpha-stability and are robust in face of parametric uncertainties. Fractional systems are also discussed for both chapters mentioned above. The third and last part studies stochastic time-delay systems.First we discuss continuous-time systems that are subjected to Markov jumps. We define stability and obtain LMIs for the state-feedback control in such a way that the relation with the transition rates between the modes is affine, allowing, therefore, to treat the case in which the rates are uncertain. We then discuss positive systems with delays, both for the continuous case as for the discrete case. Equivalent systems are obtained and delay dependent stability is addressed. A fair amount of examples are presented throughout the dissertation. Retour d'état Retour de sortie Norme H∞ Système de comparaison Systèmes fractionnaires Inégalités matricielles linéaires Time-delay Systems State Feedback Output feedback H∞- norm Comparison System Markov Jump Linear Systems Fractional Systems Linear Matrix Inequalities
269	Automatic Speech Recognition System Continually Improving Based on Subtitled Speech Data / Automatic Speech Recognition System Continually Improving Based on Subtitled Speech Data Kocour, Martin January 2019 (has links) V dnešnej dobe systémy rozpoznávania reči s veľkým slovníkom dosahujú pomerne vysoké presnosti. Za ich výsledkami však často stoja desiatky ba až stovky hodín manuálne oanotovaných trénovacích dát. Takéto dáta sú často bežne nedostupné alebo pre požadovaný jazyk vôbec neexistujú. Možným riešením je použitie bežne dostupných no menej kvalitných audiovizuálnych dát. Táto práca sa zaoberá technikou zpracovania práve takýchto dát a ich použitím pre trénovanie akustických modelov. Ďalej táto práca pojednáva o možnom využití týchto dát pre kontinuálne vylepšovanie modelov, kedže tieto dáta sú prakticky nevyčerpateľné. Pre tieto účely bol v rámci práce navrhnutý nový prístup pre výber dát.
270	Citlivostní analýza metody tlak-čas na nepřesnosti měření / Sensitivity analysis of pressure-time method on measurement uncertainty Červinková, Kateřina January 2019 (has links) The pressure-time method is one of two methods of measuring the flow rate on large hydraulic structures applicable to IEC 60041, which is based on the temporal integration of the measured pressure difference and the formation of a water hammer in a closed pipe. The aim of this master thesis is to perform a literature review of this method and to evaluate the flow rate of the measured data. Furthermore, the thesis deals with determination of the sensitivity of the evaluated flow rate to the weights of individual pressure sensors and to numerical modifying of the measured pressures. The first part is made using MS Excel. The flow rate is always evaluates with only one pressure sensor and it is compared with the original flow rate. There is research, how absence of the sensor has an impact on the evaluated flow rate. In the second part of the determination of the sensitivity of the evaluated flow rate, various encroachment (signal smoothing, noise, time delay, frequency band removal) are performed of measured pressure signal in Matlab. Various surrounding influences or sensors failures are simulated.

Search results