Rozprawy doktorskie na temat „Contrôle LPV Robuste”
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Raharijaona, Thibaut. "Commande robuste pour l'assistance au contrôle latéral d'un véhicule routier". Paris 11, 2004. http://www.theses.fr/2004PA112179.
Pełny tekst źródłaLateral control finds many applications in the field of driving assistance. A large number of vehicle accidents results from unexpected excessive yaw motion such as spin-out and lane departure. In addition, such type of accidents generally occurs on rural road, and about 30 % of fatalities in France are due to accidents with vehicle alone. The thesis aims at synthesizing a controller which assists the driver in the situations of lane keeping and disturbance rejections. The vehicle is subject to lateral wind and road banking and the control strategy must ensure driving comfort criteria and must respect the physical limitations of the actuator. The assistance strategy adopted consists in adding a supplementary torque using a motorized direction system to that of the driver. It takes into account three components which are the vehicle, the steering column and the driver. The developments focus on the Hinfinity and Hinfinity-LPV robust control theory completed with the model reduction methods. First, in the context of an Hinfinity synthesis at fixed longitudinal velocity, the specifications are satisfied. The active assistance system ensures good closed loop robustness properties as shown by the mu-analysis. Secondly, in order to increase the stability of the controlled system, a controller scheduled by the longitudinal velocity is synthesized. The performances are better
Bui-Tuan, Viet Long. "Stability and stabilization of linear parameter-varying and time-varying delay systems with actuators saturation". Electronic Thesis or Diss., Amiens, 2022. http://www.theses.fr/2022AMIE0082.
Pełny tekst źródłaThe dissertation is devoted to developing a methodology of stability and stabilization for the linear parameter-dependent (PD) and time-delay systems (TDSs) subject to control saturation. In the industrial process, control signal magnitude is usually bounded by the safety constraints, the physical cycle limits, and so on. For this reason, a suitable synthesis and analysis tool is needed to accurately describe the characteristics of the saturated linear parameter-varying (LPV) systems. In the part one, a parameter-dependent form of the generalized sector condition (GSC) is considered to solve the saturated stabilization problem. Several feedback control strategies are investigated to stabilize the saturated LPV/qLPV systems. Necessary and sufficient stabilization conditions via the parameterized linear matrix inequality (PLMI) formulation proposed for the feedback controllers conforming to the design requirements (i.e., the admissible set of the initial conditions, the estimated region of the asymptotic convergence domain, the robust stability and performance with the influence of perturbations, Etc.). The relaxation of the designed PLMIs is shown through the comparison results using a parameter-dependent Lyapunov function (PDLF). In the second part, the delay-dependent stability developments based on Lyapunov-Krasovskii functional (LKF) are presented. The modern advanced bounding techniques are utilized with a balance between conservatism and computational complexity. Then, saturation stabilization analyzes for the gain-scheduling controllers. Inspired by uncertain delay system methods, a novel stabilization condition is derived from the delay-dependent stabilizing analysis for the LPV time-delay system subject to saturation constraints. In this aspect, the stabilizing gain-scheduling feedback controllers improve the performance and stability of the saturated system and provide a large attraction domain. It can be emphasized that the derived formulation is general and can be used for the design control of many dynamic systems. Finally, to maximize the attraction region while guaranteeing the asymptotic stability of the closed-loop system, an optimization problem is included to the proposed control design strategy
Penco, Dario. "Contrôle véhicule autonome. Contrôle robuste et haute performance pour permettre les manœuvres à haute dynamique des véhicules autonomes". Electronic Thesis or Diss., université Paris-Saclay, 2022. http://www.theses.fr/2022UPASG039.
Pełny tekst źródłaThe work proposed in this thesis is in the context of autonomous driving. In particular, the objective is the development of a control law for path tracking of collision avoidance maneuvers for an autonomous vehicle.Several non-linear models of the vehicle, capable of representing its behavior in high dynamics maneuvers, are presented. The purpose is to obtain a model for the synthesis of the controllers. The different vehicle models proposed take into consideration the dynamics of the longitudinal, lateral and yaw vehicle speeds. That allows to use the models for the synthesis of controllers that deals simultaneously with vehicle longitudinal and lateral control. Moreover, a non-linear model for tire forces and the variable representation for load transfer have been used for the vehicle models. In fact, the representation of the non-linear behavior of the tires, influenced by the load transfer, is critical in high dynamics maneuvers. Some simulation results allow to compare the different vehicle models and to choose the model used for the controllers synthesis.A linear time-variant model is obtained through the linearization of the chosen non-linear model. The LPV polytopic and grid-based approaches are then used to define two LPV models.Several controllers, static and dynamic, have been developed using the two LPV models. These controllers combine the wheels steering ang torques to stabilize the vehicle and to guarantee the vehicle path tracking on a set of collision avoidance maneuvers. The synthesis of the controllers is done using robust and optimal control methods, through the resolution of optimization problems subjected to LMI constraints. The saturations of the control signals and of the tire forces are taken into consideration in the control synthesis in order to maximize the region of attraction of the system in closed loop.Several simulation results, obtained using a high representativity simulation model, allow to asses the closed loop system performances in presence of non-zero initial conditions and parameter dispersions
Thabet, Rihab El Houda. "Détection de défauts des systèmes non linéaires à incertitudes bornées continus". Thesis, Bordeaux, 2014. http://www.theses.fr/2014BORD0283/document.
Pełny tekst źródłaThe monitoring of industrial and/or embedded systems is a major concern accordingto their increasing complexity and requirements to respect the mission profiles. Detection of anomaliesplays a key role in this context. Fundamentally, model-based detection procedures consist incomparing the true operation of the system with a reference established using a fault-free model.However, the monitored systems often feature nonlinear dynamics which are difficult to be exactlycharacterized. The approach considered in this thesis is to enclose their influence through boundeduncertainties. The propagation of these uncertainties allows the evaluation of thresholds aimingat ensuring a good trade-off between sensitivity to faults and robustness with respect to disturbanceswhile maintaining a reasonable computational complexity. To that purpose, an importantpart of the work adresses the extension of classes of dynamic models with bounded uncertaintiesso that interval observers can be obtained with the related inclusion and stability proofs. Based ona time-varying change of coordinates, LTI, LPV and LTV dynamics are gradually considered tofinally deal with some classes classes of nonlinear continuous dynamics with bounded uncertainties.A transformation of such nonlinear models into LPV models with bounded uncertainties has beenused. A first study on nonlinearities involved in longitudinal flight dynamics is presented. A complementarywork deals with an explicit characterization of measurement noise variability (randombehavior of noise within measurement) in a bounded error context. Combining this data-drivenapproach with a model-driven one using an interval predictor, a promising method for the detectionof faults related to the position of aircraft control surfaces is proposed. In this context, specialattention has been paid to the detection of runaway and jamming of an elevator
Chokor, Abbas. "Design of several centralized and decentralized multilayer robust control architectures for global chassis control". Thesis, Compiègne, 2019. http://www.theses.fr/2019COMP2514.
Pełny tekst źródłaGlobal Chassis Control (GCC) is crucial task in intelligent vehicles. It consists of assisting the driver by several automated functionalities especially for active safety and comfort purposes. Due to the fact that the dynamics of these functionalities are interconnected, thus the awaited performances are sometimes contradictory. Hence, the main task in GCC field is to coordinate the different Advanced Driving Assistance Systems (ADAS) to create synergies between the interconnected dynamics in order to improve the overall vehicle performance. Several powerful coordination strategies have already been developed either in the academic world or in the industrial one to manage these interconnections. Because the active safety needs are increasing from one side, and the technology that can be embedded into vehicles is evolving, an intense research and development is still involved in the field of global chassis control. This thesis analyzes di_erent dynamics interconnections and develops new several GCC strategies where the Active Front Steering, Active Differential Braking, and the Active Suspensions are coordinated - all together or partially - to improve the vehicle overall performance i.e. the rollover avoidance, the lateral stability, the driving comfort (maneuverability), and the ride comfort. Several multilayer architectures formed by three hierarchical layers are proposed. The lower layer represents the actuators implemented into the vehicle which generate their control inputs based on the orders sent from the middle layer. The middle layer is the control layer which is responsible to generate the control inputs that minimize the errors between the desired and actual vehicle state variables i.e. the yaw, side-slip, roll, pitch, and heave motions, regardless of the driving situation. The higher layer is the decision making layer. It instantly monitors the vehicle dynamics by di_erent criteria, then, it generates weighting parameters to adapt the controllers performances according to the driving conditions i.e. to improve the vehicle's maneuverability, lateral stability, rollover avoidance, and ride comfort. The proposed architectures di_er in the control and decision layers depending on the proposed embedded actuators. For instance, the decision layers di_er in the monitored criteria and the way the decision is taken (fuzzy logic or explicit relations). The control layers di_er in structure, where centralized and decentralized controllers are developed. In the centralized architecture, one single Multi-Input-Multi-Output optimal controller generates the optimal control inputs based on the Linear Parameter Varying (LPV)/H-infinity control technique. In the decentralized architecture, the controllers are decoupled, where the Super-Twisting Sliding Mode (STSM) technique is applied to derive each control input apart. The proposed architectures are tested and validated on the professional simulator « SCANeR Studio » and on a Full vehicle nonlinear complex model. Simulation shows that all architectures are relevant to the global chassis control. The centralized one is optimal, complex and overall stability is guaranteed, while the decentralized one does not guarantee the overall stability, but it is intuitive, simple, and robust
Abouselima, Eslam. "Fault tolerant control and path planning for quasi-LPV systems : application to quadrotor". Electronic Thesis or Diss., université Paris-Saclay, 2022. http://www.theses.fr/2022UPAST085.
Pełny tekst źródłaRecently, autonomous systems are getting increasingly popular and are widely deployed in several applications in our daily life. That's why a great concern has been dedicated to the problem of autonomous systems fault-tolerant control (FTC). Evidently, the UAVs are among the systems that are in need of such FTC algorithms because any system malfunction can cause severe damage not just for the vehicle itself but for the surrounding environment as well. So this work is investigating the problem of designing an FTC algorithm for a quadrotor aiming to be a worthy contribution to the evolution of UAVs safety and reliability. Such a problem is tackled through some fundamental steps beginning with establishing a trustful model for the system representing the physical dynamics accurately. So Newton-Euler formulation is used for modeling the quadrotor resulting in a mathematical model that describes the relationship between the applied forces and the system states. After that the nonlinear model is linearized around the hovering point to simplify the control law design. A precise model could be constructed in an LPV framework where the nonlinear terms are considered as linearly time-varying within the given parameter limits. The deduced model is then used to build a controller that stabilizes the quadrotor and guarantees adequate trajectory tracking. So different types of control law are presented and analyzed some of them are linear controllers like PID provided with loop shaping technique. Other types of controllers presented are LQG to handle the system whose measurements are affected by Gaussian white noise and robust LPV control based on the H_inf technique to overcome unknown exogenous disturbances and measurement noise. In order to provide the quadrotor with an efficient FTC scheme, first, a fault detection and diagnosis (FDD) unit is proposed to identify the type, amount, and location of the existent fault. The FDD unit contains a model-based observer that generates some residual signals indicating the fault occurrence. According to the observer design, it may give just fault detection with a bank of observers for fault isolation or it can perform fault detection, estimation, and identification simultaneously. So an observer is designed based on H_/ H_inf technique aiming at maximizing the fault to residual sensitivity by using the H_ index properties, and minimizing the H_inf norm for worst-case exogenous signals attenuation. Afterward, a new approach is proposed for observer design based on an auxiliary output containing the system output and its successive time derivatives. This approach is used for both actuators and sensors fault diagnosis including fault detection, estimation, and isolation. It is illustrated that under some structural conditions, the faults can be estimated exactly while the perturbations are completely decoupled from the residual signals. However, if exact convergence is not ensured, some relaxed conditions are provided to maintain asymptotic fault estimation. Finally, the worst-case where the perturbations cannot be decoupled is presented and handled using H_/H_inf approach which is further enhanced utilizing the auxiliary output. Upon the obtained results from the actuator FDD unit, an active fault-tolerant control law is designed. After fault evaluation, the FDD gives a decision for the controller reconfiguration unit whether the actuator damage can be contained or not. For the first case, a control law is proposed aiming at fault compensation and precise trajectory tracking in the presence of system malfunction. For the latter case, a fail-safe mode is used to ensure that the quadrotor can land safely without crashing or causing harm to the surrounding environment
Sereni, Bruno. "Static output feedback control for LPV and uncertain LTI systems /". Ilha Solteira, 2019. http://hdl.handle.net/11449/180732.
Pełny tekst źródłaResumo: Este trabalho aborda o controle via realimentação estática de saída aplicado à sistemas lineares com parâmetro variante (LPV) e lineares incertos invariantes no tempo (LIT). O projeto de ganhos de realimentação estática de saída apresentado neste trabalho é baseado no método dos dois estágios, o qual consiste em primeiramente obter um ganho de realimentação de estados, e então, utilizar esta informação no segundo estágio para obter-se o ganho de realimentação estática de saída desejado. As soluções para os problemas investigados são apresentadas na forma de desigualdades matriciais lineares (no inglês, linear matrix inequalities, LMIs), obtidas por meio da aplicação do Lema de Finsler. Baseado em resultados anteriores encontrados na literatura, este trabalho propõe uma estratégia de relaxação de forma a obter um método menos conservador para obtenção de ganhos robustos de realimentação estática de saída para sistemas incertos LTI. Na estratégia proposta, as variáveis adicionais do Lema de Finsler são consideradas como dependentes de parâmetro, juntamente com o uso de funções de Lyapunov dependentes de parâmetro (no inglês, parameter-dependent Lyapunov functions, PDLFs). É apresentado um estudo avaliando a eficácia da estratégia proposta em fornecer uma maior região de factibilidade para um dado problema. Os resultados foram utilizados em uma comparação com um método de relaxação baseado apenas no uso de PDLFs. Uma segunda contribuição deste trabalho consiste na proposta de um... (Resumo completo, clicar acesso eletrônico abaixo)
Abstract: The static output feedback (SOF) control applied to linear parameter-varying (LPV) and uncertain linear time-invariant (LTI) systems are addressed in this work. The approach chosen for the design of SOF gains is based on the two-stage method, which consists in obtaining a state feedback gain at first, and then using that information for deriving the desired SOF gain at the second stage. The solutions for the investigated problems are presented in terms of linear matrix inequalities (LMIs), obtained by means of the application of the Finsler's Lemma. Based on previous papers found in literature, this work proposes a relaxation strategy in order to achieve a less conservative method for obtaining robust SOF gains for uncertain LTI systems. In the proposed strategy, the Finsler's Lemma additional variables are considered to be parameter-dependent along with the use of parameter-dependent Lyapunov functions (PDLFs). A study evaluating the effectiveness of the proposed strategy in providing a larger feasibility region for a given problem is presented. The results were used in a comparison with a relaxation method based only on PDLFs. Another contribution of this work lies in the proposal of a solution for the control of LPV systems via the design of a gain-scheduled SOF controller. The methods proposed for both control problems were applied on the design of controllers for an active suspension system. In the experiments, it was assumed that only one of its four system's states wer... (Complete abstract click electronic access below)
Mestre
Pita, Guillermo. "Application de techniques de commande avancées dans le domaine automobile". Thesis, Supélec, 2011. http://www.theses.fr/2011SUPL0002/document.
Pełny tekst źródłaThe work achieved in this PhD thesis is dedicated to applications of advanced control methodologies to problems currently faced in the automotive field. Three main areas of investigation were successively considered, using advanced techniques such as H infinity LTI and q-LPV design procedures, dynamic feedback linearization, retuning of controllers, in particular PI-type, and optimization of filters required by the H infinity design procedure:• Trajectory control of automotive vehicle. A control structure has been proposed which is based on the procedure classically developed in the aeronautics field.• Robust nonlinear control of the air path of an internal combustion engine. An innovative q-LPV formulation of the motor has been proposed, which has enabled design of advanced controllers with varying parameters. These parameters are automatically updated according to the operating point.• Optimal control laws for brakes’s torque blending on electrical vehicle. Motivation and interest for electrical vehicle has been first detailed, then potential gain in autonomy due to regenerative braking has been studied. Finally, solutions which reduce oscillations in the power train chain induced by torque demand to the electrical machine during braking phases has been developed
Fergani, Soheib. "Commande robuste LPV/H infini multivariable pour la dynamique véhicule". Thesis, Grenoble, 2014. http://www.theses.fr/2014GRENT053/document.
Pełny tekst źródłaThe main issue of this thesis is to work out new Global Chassis MIMO controllers that enhance the overall dynamics of the vehicle while preserving the vehicle stability in critical driving situations. Many innovative strategies have been explored and finalized to deal with these problematics. Various solutions have been given to deal with the vehicle stability and performance objectives. Indeed, many works based on the LPV/Hinf approach have been developed to control simultaneously the braking, steering and suspension actuators. On the other hand, innovative road profile estimation strategies have been introduced and validated via experimental procedures, providing new cheap and easily implementable techniques to estimate the road profile characteristics. Then, the vehicle control is adapted, depending on the road roughness (since it influences greatly the behaviour and the stability of the car). Several fault tolerant control strategies have been also considered to handle the actuators failures while keeping the vehicle stability, safety and enhancing the dynamical behaviour of the car in dangerous and critical driving situations.The general content of this thesisis as follows :-PART I : Theoretical backgrounds and vehicle modeling.-PART II : Road adaptive control vehicle dynamics.-PART III : Global chassis control using several actuators.Also, during this thesis and using the previous works of the advisors and the thesis results, a Matlab ToolBox "Automotive" has been developed to provide a bench test for the different automotive control studies. Implementations on test beds and real vehicle are also achieved to prove the efficiency of the proposed strategies
Roche, Emilie. "Commande à échantillonnage variable pour les systèmes LPV : application à un sous-marin autonome". Phd thesis, Université de Grenoble, 2011. http://tel.archives-ouvertes.fr/tel-00721970.
Pełny tekst źródłaHernandez, Torres David. "Commande robuste de générateurs électrochimiques hybrides". Thesis, Grenoble, 2011. http://www.theses.fr/2011GRENT075/document.
Pełny tekst źródłaThe objective of this thesis is the design of several control strategies for a hybrid power generator composed by a fuel cell and an auxiliary energy storage source. The Linear Matrix Inequalities (LMI) tools are extensively used in this dissertation as a solution to the mutivariable robust control problem. As a first approach, the control methodology is consecrated to the electrical power management sub-system of the fuel cell. Different strategies are proposed to control the hybrid boost power converter configuration for DC voltage applications. The methodology is extended to AC islanded applications considering the additional control of a voltage inverter. The validation on a dedicated test-bench, of a part of the proposed control strategies, is presented. In a second approach, the control of the air supply system is addressed. The management of the air dynamic entering the fuel cell is assured by the control of the air flow of a compressor. The air supply sub-system is controlled to keep a desired oxygen excess ratio, this allow to improve the fuel cell performance. An introduction to the control of Linear Varying Parameter (LPV) systems is also presented. Robustness analysis studies are performed, these robust properties are contrasted with several classic control strategies, demonstrating the advantage and the importance of multivariable robust methodologies
De, Hillerin Safta. "Commande robuste de systèmes non linéaires incertains". Thesis, Supélec, 2011. http://www.theses.fr/2011SUPL0015/document.
Pełny tekst źródłaThis thesis studies the LPV approach for the robust control of nonlinear systems. Its originality is to propose for the first time a rigorous framework allowing to solve efficiently nonlinear synthesis problems.The LPV approach was proposed as an extension of the H-infinity approach in the context of LPV (Linear Parameter-Varying) systems and nonlinear systems. Although this approach seemed promising, it was not much used in practise. Indeed, beyond certain theoretical limitations, the nature itself of the obtained solutions did not seem adequate. This open question constitutes the starting point of our work.We first prove that the observed weak variation of the controllers is in fact mostly due to the information structure traditionally used for LPV synthesis, and that under reasonable assumptions, the LPV framework can overlap feedback linearization strategies. This point having been resolved, a second difficulty lies in the actual achievement of nonlinear controllers yielding performance guarantees. We propose a rigorous framework allowing to solve efficiently an incremental synthesis problem, through the resolution of an LPV problem associated to a specific information structure compatible with the one identified in the first part.This study and its corollary description of a formal framework and of a complete controller synthesis procedure, including complexity reduction methods, provide powerful arguments in favor of the LPV approach for the robust control of nonlinear systems
Guthrie, Kyle Thomas. "Linear Parameter Varying Path Following Control of a Small Fixed Wing Unmanned Aerial Vehicle". Thesis, Virginia Tech, 2013. http://hdl.handle.net/10919/23740.
Pełny tekst źródłaMaster of Science
Nguyen, Manh Quan. "LPV approaches for modelling and control of vehicle dynamics : application toa small car pilot plant with ER dampers". Thesis, Université Grenoble Alpes (ComUE), 2016. http://www.theses.fr/2016GREAT091/document.
Pełny tekst źródłaSemi-active suspension system plays a key role in enhancing comfort and road holding of vertical dynamics in automotive vehicles. This PhD thesis research work, focused on that topic, is divided into two main parts. The first one considers the semi-active suspension control problem, the main challenge of which being to handle the dissipativity constraint and suspensions stroke limitation of semi-active dampers. These constraints are recast into input and state constraints in a linear state space representation. Thereby, the semi-active suspension control is designed in the framework of Linear Parameter Varying (LPV) approach with input constraints, and of Model Predictive Control (MPC) approach.The second part is devoted to Fault Estimation and Fault Tolerant Control (FTC) in case of actuator fault, and its application to Semi-Active suspension systems. The fault considered here is the loss of actuator's efficiency (due to an oil leakage of the damper for instance when a ), which is estimated using several observer-based approaches. Then, thanks to the fault information from the estimation step, an LPV/FTC fault scheduling control is designed to limit the vehicle performance deterioration
Sigthorsson, David O. "Control-Oriented Modeling and Output Feedback Control of Hypersonic Air-Breathing Vehicles". The Ohio State University, 2008. http://rave.ohiolink.edu/etdc/view?acc_num=osu1228230786.
Pełny tekst źródłaSouami, Yani. "Tolérance aux Défaillances par Capteurs Virtuels : application aux Systèmes de Régulation d'un Turboréacteur". Thesis, Paris, ENSAM, 2015. http://www.theses.fr/2015ENAM0021/document.
Pełny tekst źródłaOver the years, market pressure has ensured that engine manufacturers invest in technology to provide clean, quiet, affordable, reliable, and efficient power. One of the last improvements is the introduction of virtual sensors that make use of non-like signals (analytical redundancy). This, is expected to improve weight, flight safety and availability. However, this new approach has not been widely investigated yet and needs further attention to remove its limitations for certificated applications.The concept of virtual sensors goes along with fault tolerance control strategies that help in limiting disruptions and maintenance costs. Indeed, a fault-tolerant control (FTC) scheme, allows for a leaner hardware structure without decreasing the safety of the system.We propose in this thesis work, to monitor through a passive FTC architecture, the Variables Geometries subsystems' of the engine: the VSV (Variable Stator Vane) and FMV (Fuel Metering Valve). A strong constrains, is not to change the parameters of the existing controllers. The approach named AVG-FTC (Variable Geometries Aircraft-Fault-Tolerant Control) is based on several cascaded sub-systems that allow to deal with the Linear Parameter Varying (LPV) model of the systems and modelling errors. The proposed FTC scheme uses a neural model of the sensor associated with a Takagi-Sugeno observer and a Neuronal Extended Kalman Filter Neural (NEKF) to account for those dynamics that cannot be explained with the LPV model to produce a real-time estimate of the monitored outputs. In case of sensor abnormality, the proposed virtual sensors can then be used as an arbitrator for sensor monitoring or as a healthy sensor used by the controller. To evaluate the approach, serval closed-loop simulations, on SNECMA jet-engine simulator have been performed. The results for distinct flight scenarios with different sensors faults have shown the capabilities of the approach in terms of stability and robustness
Pohl, Lukáš. "Robustní řízení elektrických pohonů". Doctoral thesis, Vysoké učení technické v Brně. Fakulta elektrotechniky a komunikačních technologií, 2015. http://www.nusl.cz/ntk/nusl-233684.
Pełny tekst źródłaHalalchi, Houssem. "Commande linéaire à paramètres variants des robots manipulateurs flexibles". Phd thesis, Université de Strasbourg, 2012. http://tel.archives-ouvertes.fr/tel-00762367.
Pełny tekst źródłaTheodoulis, Spilios. "Robust Control in a Nonlinear Context for Large Operating Domains". Phd thesis, Université Paris Sud - Paris XI, 2008. http://tel.archives-ouvertes.fr/tel-00352237.
Pełny tekst źródłaCette stratégie est basée sur une pré-compensation (loop shaping) faite à partir des systèmes linéarisés du système non-linéaire autour d'un petit nombre de points de fonctionnement en utilisant des compensateurs de structure simple (e.g. PID), et de plus en utilisant une compensation additionnelle/corrective type retour de sortie H1 statique. Les points de fonctionnement de la deuxième compensation sont calculés à l'aide d'un algorithme de choix de points de synthèse basé sur la connexion des théories de la gap métrique et de la commande H1 par loop shaping. La loi de commande globale non-linéaire séquencée est finalement obtenue en utilisant une interpolation de tous les gains des com-pensateurs impliqués pendant la phase de synthèse.
La méthode proposée ici est validée sur deux exemples d'application : le pilotage autour de l'axe de tangage d'un missile fortement manœuvrant et d'un véhicule de rentrée atmosphérique. Les deux autopilotes sont testés de façon intensive en utilisant des simulations non-linéaires, une analyse Monte Carlo et linéaire à temps figé afin de démontrer leurs excellentes caractéristiques en termes de performance et de robustesse.
Sève, Florian. "Commande robuste pour une classe de systèmes non linéaires à paramètres variants : application aux projectiles guidés". Thesis, Université de Lorraine, 2016. http://www.theses.fr/2016LORR0281.
Pełny tekst źródłaThis thesis addresses the development of the flight dynamics and control laws for an artillery spin-stabilized projectile equipped with a decoupled guidance nose. A projectile nonlinear model is discussed, and it is used for computing a linearized model of the nose roll dynamics along with a q-LPV model of the highly parameter-varying pitch/yaw-dynamics. Modeling uncertainty is taken into account for autopilot design. Important properties specific to spin-stabilized projectiles, which are relevant to pitch/yaw-channel cross-coupling, internal modes and stability, are highlighted using the q-LPV model. In order to use the latter for calculating a control law, the dimension of its parameter vector is reduced and the position of the nose-embedded sensors is considered. A single linear controller is sufficient for the nose roll angle dynamics whereas a systematic linearization-based gain-scheduled control strategy is separately devised to provide a pitch/yaw-axis load factor gain-scheduled controller. Controllers of reduced-order fixed structures are computed by applying the same H∞ linear design loop-shaping approach for the roll and pitch/yaw-axes. Very good closed-loop performance and robustness properties, which are similar to those provided by full order controllers, are obtained. Finally, the effectiveness of the autopilot augmented by a pure proportional navigation guidance law is verified through a variety of nonlinear trajectory simulations. The latter correspond to nominal flight scenarios with ballistic, non-ballistic stationary, and maneuvering interception points, and to scenarios with perturbed launch conditions or guided projectile dynamics
Roos, Clément. "Contribution à la commande des systèmes saturés en présence d'incertitudes et de variations paramétriques : application au pilotage de l'avion au sol". Toulouse, ISAE, 2007. http://www.theses.fr/2007ESAE0022.
Pełny tekst źródłaVu, Van Tan. "Enhancing the roll stability of heavy vehicles by using an active anti-roll bar system". Thesis, Université Grenoble Alpes (ComUE), 2017. http://www.theses.fr/2017GREAT066/document.
Pełny tekst źródłaVehicle rollover is a very serious problem for the safety of heavy vehicles. Most modern heavy vehicles are equipped with passive anti-roll bars, however they may be not sufficient to overcome critical situations. This thesis focuses on the active anti-roll bar system, which is the most common method used to improve roll stability of heavy vehicles.The thesis research work is divided into three main parts. In the first part, an integrated model is proposed with four electronic servo-valve hydraulic actuators mounted in a linear yaw-roll model of a single unit heavy vehicle. In the second part, the active anti-roll bar system uses two control approaches in the LTI framework: LQR, Hinfty. In the third part, the grid-based LPV approach is used to synthesize the Hinfty/LPV active anti-roll bar controller with parameter dependant weighting functions, by using LPVTools.The simulation results, in the frequency and time domains, as well as the validation by using the TruckSim simulation software, show that the active anti-roll bar control is a realistic and efficient solution which drastically improves roll stability of a single unit heavy vehicle, compared to the passive anti-roll bar
Piccini, Jacopo. "Data Dependent Convergence Guarantees for Regression Problems in Neural Networks". Master's thesis, Alma Mater Studiorum - Università di Bologna, 2021. http://amslaurea.unibo.it/24218/.
Pełny tekst źródłaManrique, Espindola Dolly Tatiana. "Commande optimale d’une voiture électrique à faible consommation sous contraintes temps réel". Thesis, Université de Lorraine, 2014. http://www.theses.fr/2014LORR0198/document.
Pełny tekst źródłaIn the field of transportation, the research on energy efficiency has been carried out for few decades by the automotive industry, where one of the main objectives is to reduce the energetic consumption. This particular problem can be rephrased as how the vehicle must be driven so that the minimum quantity of energy is used. This is the optimal driving strategy. In this project, a suitable model of the Vir'volt electric vehicle involved in the European Shell Eco-Marathon is obtained. The unknown parameters involved in the vehicle dynamics are estimated using Parameter identification from experimental data. The identified dynamics is used to derive an optimal driving strategy that is intended to be tracked on-line during the driving task. The tracking task is subject to time-varying polytopic constraint on the input and/or the state. A MPC-based tracking strategy that uses an homothetic transformation as a suitable time-varying invariant set is used. The time-varying invariant set guarantees the asymptotic stability of the control law. The problem of the MPC tracking for Linear Parametric Varying (LPV) systems is introduced. A new explicit MPC strategy for LPV systems is developed. This strategy uses a Parameter dependent Lyapunov Function (PDLF) to involve explicitly the time-varying parameter in the control law and so it reduces conservatism. A benchmark is used to test the performances of the optimal driving strategy and the explicit MPC tracking strategy. Finally, a robust adaptive technique with on-line identification of the dynamics is has been proposed and tested in the race showing good performances of the adaptive driving strategy
Briat, Corentin. "Commande et Observation Robuste des Systèmes LPV Retardés". Phd thesis, 2008. http://tel.archives-ouvertes.fr/tel-00387406.
Pełny tekst źródłaPrime, Zebb David. "Robust scheduling control of aeroelasticity". Thesis, 2010. http://hdl.handle.net/2440/67016.
Pełny tekst źródłaThesis (Ph.D.) -- University of Adelaide, School of Mechanical Engineering, 2010
Zhang, Hai. "Robust LPV control of a magnetic bearing suspension system with a convex optimization approach /". 2003. http://wwwlib.umi.com/dissertations/fullcit/3083092.
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