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Controle com modos deslizantes aplicado em sistemas com atraso e acesso somente à saída /Damazo, Graciliano Antonio. January 2008 (has links)
Orientador: José Paulo Fernandes Garcia / Banca: Laurence Duarte Colvara / Banca: Ivan Nunes da Silva / Resumo: O enfoque principal do trabalho foi dado ao Controle Discreto com Modos Deslizantes(CDMD) aplicado em sistemas que possuem atraso no processamento do sinal de controle e acesso somente à saída do sistema. A estratégia de controle tem por objetivo a utilização de técnicas de controle com modos deslizantes para a elaboração de uma lei de controle simples e robusta às incertezas da planta e ao atraso. O observador de estados apresentado possui características de modo deslizante, o qual realiza a estimação robusta do vetor de estados que na maioria dos casos práticos não é totalmente acessível. Os métodos de projetos propostos podem ser aplicados no controle de plantas estáveis ou instáveis com atraso no sinal de controle e acesso somente à saída da planta. Para comprovar a eficiência dos projetos apresentados neste trabalho, analisou-se o controlador atuando com acesso a todos estados e o controlador atuando juntamente com o observador robusto para a estimação dos estados. Os resultados foram obtidos através de simulações no Sistema Bola e Viga, Sistema Pêndulo Invertido Linear e Sistema Pêndulo Invertido Rotacional que são exemplos de plantas de natureza instável. / Abstract: The main focus was placed on the Discrete Sliding Mode Control (DSMC) applied to systems that have a delay in the processing of the control signal and access to the system output only. The control strategy is intended to use control techniques of sliding modes to elaborate a simple and robust control law against the uncertainties of the plant and the delay. The states observer presented has the characteristics of a sliding mode, which performs the robust estimation of the states vector that, in most practical cases, is not fully accessible. The design methods proposed may be applied to the control of stable or unstable plants with delay on the control signal and access to the plant output only. In order to attest the efficiency of the design presented in this work, the controller was analyzed at work with access to all states and jointly with the robust observer to estimate the states. The results were obtained by means of simulations in the Ball and Beam System, Linear Inverted Pendulum System, and Rotational Inverted Pendulum System, which are examples of plants of unstable nature. / Mestre
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Controle com modos deslizantes aplicado em sistemas com atraso e acesso somente à saídaDamazo, Graciliano Antonio [UNESP] 11 June 2008 (has links) (PDF)
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damazo_ga_me_ilha.pdf: 760851 bytes, checksum: d1a0f2a22e4917da6787ce545199a696 (MD5) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / O enfoque principal do trabalho foi dado ao Controle Discreto com Modos Deslizantes(CDMD) aplicado em sistemas que possuem atraso no processamento do sinal de controle e acesso somente à saída do sistema. A estratégia de controle tem por objetivo a utilização de técnicas de controle com modos deslizantes para a elaboração de uma lei de controle simples e robusta às incertezas da planta e ao atraso. O observador de estados apresentado possui características de modo deslizante, o qual realiza a estimação robusta do vetor de estados que na maioria dos casos práticos não é totalmente acessível. Os métodos de projetos propostos podem ser aplicados no controle de plantas estáveis ou instáveis com atraso no sinal de controle e acesso somente à saída da planta. Para comprovar a eficiência dos projetos apresentados neste trabalho, analisou-se o controlador atuando com acesso a todos estados e o controlador atuando juntamente com o observador robusto para a estimação dos estados. Os resultados foram obtidos através de simulações no Sistema Bola e Viga, Sistema Pêndulo Invertido Linear e Sistema Pêndulo Invertido Rotacional que são exemplos de plantas de natureza instável. / The main focus was placed on the Discrete Sliding Mode Control (DSMC) applied to systems that have a delay in the processing of the control signal and access to the system output only. The control strategy is intended to use control techniques of sliding modes to elaborate a simple and robust control law against the uncertainties of the plant and the delay. The states observer presented has the characteristics of a sliding mode, which performs the robust estimation of the states vector that, in most practical cases, is not fully accessible. The design methods proposed may be applied to the control of stable or unstable plants with delay on the control signal and access to the plant output only. In order to attest the efficiency of the design presented in this work, the controller was analyzed at work with access to all states and jointly with the robust observer to estimate the states. The results were obtained by means of simulations in the Ball and Beam System, Linear Inverted Pendulum System, and Rotational Inverted Pendulum System, which are examples of plants of unstable nature.
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Robust Model-Based Control of Nonlinear Systems for Bio-Inspired Autonomous Underwater VehiclesThome De Faria, Cassio 16 September 2013 (has links)
The growing need for ocean surveillance and exploration has pushed the development of novel autonomous underwater vehicle (AUV) technology. A current trend is to make use of bio-inspired propulsor to increase the overall system efficiency and performance, an improvement that has deep implications in the dynamics of the system. The goal of this dissertation is to propose a generic robust control framework specific for bio-inspired autonomous underwater vehicles (BIAUV). These vehicles utilize periodic oscillation of a flexible structural component to generate thrust, a propulsion mechanism that can be tuned to operate under resonance and consequently improve the overall system efficiency. The control parameter should then be selected to keep the system operating in such a condition. Another important aspect is to have a controller design technique that can address the time-varying behaviors, structured uncertainties and system nonlinearities. To address these needs a robust, model-based, nonlinear controller design technique is presented, called digital sliding mode controller (DSMC), which also takes into account the discrete implementation of these laws using microcontrollers. The control law is implemented in the control of a jellyfish-inspired autonomous underwater vehicle. / Ph. D.
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Contributions au vol en formation serrée de petits drones / Contributions to Tight Formation Flight Control of Small UASBolting, Jan 26 September 2017 (has links)
Les mini-drones à propulsion électrique sont susceptibles d’avoir une endurance inférieure à celle de drones plus grands.L’exploitation des interactions aérodynamiques, inspirée par les oiseaux migratoires, ainsi que le ravitaillement en vol , sont des approches prometteuses pour améliorer l’endurance des mini-drones. La commande par modes glissants d’ordre supérieur en temps continu (CTHOSM) a été considérée comme un candidat prometteur à ce problème ouvert difficile et a été appliquée avec succès à des modèles cinématiques simples. Dans nos travaux, nous étudions les implications de la présence de la dynamique de la boucle interne et de l’implémentation en temps discret à des taux d’échantillonnage modérés et constatons alors que l’application de la commande CTHOSM devient impossible. Nous proposons donc un schéma de guidage prédictif discret par modes glissants pour approximer les performances de la commande CTHOSM pour une dynamique réaliste du drone. On propose également un problème de référence accessible pour d'autres chercheurs. Les algorithmes de localisation probabilistes existants ne permettent pas la caractérisation de régions de confiance garanties de la position des autres membres de la formation. Dans ce contexte, nous proposons un nouveau filtre ensembliste caractérisant de telles régions de confiance sous forme ellipsoïdale. Nos premières évaluations ont montré que les efforts de calcul induits par cette mise en œuvre restent parfaitement compatibles avec les contraintes des systèmes avioniques des petits drones. / Small, electrically driven unmanned aircraft are likely to suffer from inferior endurance compared to their larger counterparts. Upwash exploitation by tight formation flight, as well as aerial recharging are the most promising control-driven approaches to mitigate this disadvantage. Continuous time higher order sliding mode control (CTHOSM) has been considered as a candidate for this challenging open problem and was successfully applied to simple kinematic models in simulation, where excellent relative position tracking performance can be demonstrated. In this work we study the implications of the presence of inner loop dynamics and discrete implementation at moderate sampling rates and we find that it precludes the application of CTHOSM control to fixed-wing UAS. We propose a predictive discrete sliding mode guidance scheme to approximate the performance of CTHOSM control assuming realistic fixed-wing UAS dynamics. We show that the proposed guidance scheme in combination with inner load factor tracking loops and a disturbance observer allows for relative position tracking performance compatible with the requirements of upwash exploitation. We propose as well an openly accessible benchmark problem. Existing probabilistic localization algorithms cannot provide guaranteed confidence regions of the relative position between UAS. We present a set membership filter that provides ellipsoidal regions guaranteed to contain the relative positions of the other UAS. It is compatible with the hardware constraints of small low-cost UAS. Simulations suggest computational efforts compatible with the computational resources typically available onboard small UAS.
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Controle sem sensores mecânicos para gerador síncrono a ímã permanente / Sensorless control of permanent magnet synchronous generatorBernardes, Thiago Araújo 29 July 2015 (has links)
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / This Thesis proposes sensorless vector control schemes that combine designed
observers in the discrete-time domain to estimate the rotor position and speed for a
permanent magnet synchronous generator of non-salient poles. Two control schemes are
proposed. The first scheme is based on a discrete sliding mode current observer in series
with an adaptive electromotive force observer. Then, the sliding conditions that assure
the sliding motion around the sliding surface are derived to ensure the stability of the
current observer as well as an innovative design procedure is proposed for it. Moreover,
the electromotive force observer is designed using Lyapunov s Discrete Direct Method,
which provides the estimated rotor position and speed. The second scheme extends
the developed methodology for the former, considering the parametric uncertainties and
eliminating the high frequency components of chattering. The second scheme uses a
discrete sliding mode current observer as in the first scheme. However, the electromotive
force observer is replaced by a phase-locked loop in series with a discrete sliding mode
robust differentiator, which follows the proposed methodology for the discrete sliding mode
current observer. Experimental results validate the theoretical analysis and demonstrate
the performance of the proposed control schemes considering a small scale wind energy
conversion system. In addition, proposed schemes are compared with others of the
literature. It should be noticed that the whole approach is carried out in discrete time
domain making it suitable for a microcontroller or digital signal processor implementation. / Esta Tese propõe esquemas de controle vetorial sem sensores mecânicos de posição
e de velocidade que combinam observadores projetados no domínio de tempo discreto
para estimar essas variáveis para um gerador síncrono a ímãs permanentes de polos
não salientes. Dois esquemas de controle são propostos. O primeiro esquema baseiase
em um observador de corrente por modos deslizantes discretos em série com um
observador adaptativo de força eletromotriz. Então, as condições de deslizamento que
asseguram os modos deslizantes em torno da superfície de deslizamento são estabelecidas
no domínio de tempo discreto para garantir a estabilidade do observador de corrente e
um inovador procedimento de projeto para ele é proposto. Em seguida, o observador
de força eletromotriz é projetado usando o método direto de Lyapunov discreto, que
fornece a posição e a velocidade rotóricas estimadas. O segundo esquema estende a
metodologia desenvolvida para o primeiro, considerando as incertezas paramétricas bem
como eliminando as componentes de alta frequência de chattering. O segundo esquema usa
um observador de corrente por modos deslizantes discretos como o primeiro. Entretanto,
o observador de força eletromotriz é substituído por um retentor de fase em série com
um diferenciador robusto por modos deslizantes discretos, que segue a metodologia
proposta para o observador de corrente. Resultados experimentais validam a análise
teórica desenvolvida e demonstram o desempenho dos esquemas de controle propostos
considerando um sistema de conversão de energia eólica de pequeno porte. Além disso, os
esquemas propostos são comparados com outros da literatura. Ressalta-se que a toda
abordagem é desenvolvida no domínio de tempo discreto tornando-a apta para uma
implementação em microcontroladores e em processadores digitais de sinais.
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